JP2011069216A - Various energy conservation cycle combined engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain power generation capacity by opposed coated metal ball mercury gravity solar power generation which is 23,000 times or the like greater than by an existing steam turbine. <P>SOLUTION: Three kinds of opposed coated metal ball mercury gravity solar turbines are driven respectively by vacuum acceleration+overheated steam acceleration+compressed air acceleration of coated 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 opposed coated metal ball mercury gravity solar power generation allows anybody to easily cooperate with spread of various automobiles or various ships driven by inexpensive coated metal ball mercury gravity solar power generation storage 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 reduced to zero 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 gravity power plants in the world, 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, in the food chain, etc. Fish and kombu greatly increased, CO2 and other contact speeds are as fast as possible, bubbles are small in diameter, the contact area is maximized, the maximum acceleration of the earth is gravitational acceleration, the maximum heat is sunlight and geothermal, and the best resource is mercury In the case of compression heat production with gravity-driven heat pump of solar-heated air 28a + coated metal sphere and mercury, heat production is possible with no fuel cost, so coated metal sphere mercury gravity-heated coated metal sphere mercury Gravity facing turbine 8K As the three types of driving of the coated metal sphere mercury gravity facing heat turbine 8K, the coated metal sphere mercury gravity facing mass turbine 8K, and the coated metal sphere mercury gravity facing vacuum turbine 8K, which are driven by compressed air calorie and mass, respectively, the solar heater 2 The solar heating air 28a is recovered and compressed to around 800 degrees by a turbine-driven heat pump 1G, and the solar heating air 28a is heated to around 500 degrees by a compression heat recovery unit 2C. The heat pump 1G compresses heat to around 1200 to recover heat, drives two types of heat turbines and mass turbines, and generates an infinite amount of power and heat with seawater temperature rise 0CO2 exhaust 0 fuel cost 0 Coated metal sphere mercury gravitational sun that makes the best amount of cold recovery, dissolves the atmosphere such as exhaust air CO2 after cold recovery into deep sea water intake, etc. It related to power generation technology.

  Opposite all blade impeller turbine 8K3 types, metal sphere mercury gravity vacuum acceleration drive, metal sphere mercury gravitational heat acceleration drive and metal sphere mercury gravity mass acceleration drive, alloy coated metal sphere (coated platinum sphere, coated gold sphere, Coated metal spheres and mercury as a coated lead sphere, coated tungsten sphere, coated steel sphere, coated tantalum sphere, coated molybdenum sphere, coated cast iron sphere, coated silver sphere) etc. with a mercury injection pump 6Z such as 400 MPa, and vacuum gravity acceleration + Superheated steam 50 calorie acceleration + compressed air 28a Mass gravitational acceleration, increase the rolling contact rotation power of the injection coated metal spheres and mercury on the turbine blades, and the process of driving the three types of all blade impeller opposite turbine 8K, the horizontal axis 1 to 12 turbines connected horizontally at 16A, with rolling contact of coated metal spheres and mercury, same diameter, same shape, same length, multistage turbine, atmospheric pressure, same speed, same volume power, kg weight m The second is set to a metal ball mercury power generation amount of about 23,000 times that of the existing steam turbine, the compressed air mass utilization heat utilization vacuum utilization three types of all blade impeller turbine facing turbine 8K is driven, and there is no limit to vacuum utilization Installed in multiple stages to increase the drop, set the turbine diameter to 1-5 times the existing, drive the generator 1 and heat pump 1G on both sides of the turbine to drive the three-type all-blade propulsion turbine facing turbine 8K, and cover the metal With the aim of infinitely aiming at the generation of spheres and mercury and the recovery and use of solar heat, in the process of exhaust, the exhaust of the mass turbine and the exhaust of the calorie turbine are cooled with coated metal spheres and mercury to maximize the gravity, solar heat, surface tension and resource amount. In the process of limited use, the existing ice production power and cooling power use generate a huge amount of CO2, so the most important part of the compressed air mass output, including ice production and sales, is the best transition to infinite solar thermal power generation experiments. Horizontal connection It relates to a coated metal balls mercury gravity solar turbine technology stage turbine.

  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 and caused 370 million yen of damage. After 10 years, the sea area rising by 7 degrees doubled. , Damage is expected to increase more than 100 times, and Japan may become the world's largest disaster-affected country, making the existing world's thermal nuclear power generation zero. It is also necessary to prevent the extinction of mankind by increasing gravity power generation such as droughts, torrential rains, rising sea levels, typhoons, seasonal winds and tornadoes.

  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, and the theoretical best turbine gravity power generation with seawater temperature rise 0, CO2 exhaust 0 and fuel cost 0 As near-infinite power generation, rolling contact turbines containing water, mercury and liquid metals Airplanes and ships that are driven by light weight, and gravity-driven, including mercury and liquid metals, are used as gravity drives to recover limited heat and cold energy. The background of gravitational power storage battery drive and electric drive, various types of automobiles, various types of ships, full-scale electrified homes, factory electrification, etc. There is a nuisance action that consumes enormous electricity in ice production and cooling, and emits CO2 and heat in the summer environment, and there is a nuisance elimination method that cools ice production urban areas with compressed air cold heat .

  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 0, CO2 exhaust 0 and fuel cost 0, prevent global warming, postpone human extinction, coated metal sphere mercury gravity solar heat With turbines and coated metal sphere mercury gravity geothermal turbines, etc., the production volume of electricity and heat and cold is brought to infinity, and the natural demand is met to meet all the demands of heat (compressed air calorie pressure) and cold (compressed air mass pressure). Increases the speed of phenomena, prevents droughts, torrential rains, sea level rise, typhoons, seasonal winds, and tornadoes.

  CO2 exhaust 0 Seawater temperature rise 0 Fuel cost 0 full moving blade impeller turbine makes solar power generation and geothermal power generation with coated metal sphere mercury gravity, and the atmospheric pressure, the same speed, the same volumetric power, kg weight m / sec. The power generation amount around 23,000 times that of the existing steam turbine, the power generation amount 10 times that of the existing world power generation, the power generation of various vehicles driven by storage batteries for solar thermal power generation and geothermal power generation, Electric drive factory electrification prime, full electrification housing prime, existing world thermal nuclear power plant 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 heat with air Accelerate the natural phenomenon of the cold regions of the North Sea Supply CO2 and other atmospheric air to the world's seabed and reduce the global warming by reducing the atmospheric use of CO2 and other plants by 10,000 times that of forests, increasing seaweeds and corals Food Fish in the chain to increase the food of increased humanity, to prevent drought and torrential rains and rising sea levels and typhoons and monsoon and a giant of a tornado, etc., has the effect of postponing the human race extinct.

Illustration of a coated metal sphere mercury gravity facing vacuum turbine 8K (Example 1) Explanatory drawing of counter mass turbine 8K counter mass turbine 8K (Example 2) Explanatory drawing of solar heater 2 (Example 3) Explanatory drawing of the solar heat increase suspension bridge 2b (Example 4)

  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.

  1 is a counterbalanced turbine 8K having three types of inner vacuum accelerating turbines, ie, vacuum acceleration, heat acceleration and mass acceleration, and 1 to 120 stages in a turbine outer box 77a. Equally provided in multiple stages, and can be connected to and disconnected from 1 to 12 units horizontally by the horizontal shaft 16A in FIG. In the process of driving the spherical mercury gravity vacuum turbine 8K, the coated metal sphere and mercury are elevated and stored at the top by the increasing sphere raising device 2F, and the injection vacuum acceleration turbine driving gravity acceleration part 1g is accelerated by the mercury injection pump 6Z400MPa, etc. The coated metal sphere mercury gravity vacuum turbine 8K is driven repeatedly to drive the multistage turbine, and the generator 1, heat pump 1G, compression heat recovery device 2C and air heat exchanger 2X are driven on the horizontal shaft 16A. Equipped with a water heat exchanger 2Y, etc., enabling joint power generation with heat acceleration turbines and mass acceleration turbines. In joint power generation, the generation amount of heat and heat and cold production are infinite with coated metal sphere mercury gravity solar power generation with zero fuel cost We will try to increase the generation of global warming by using the anti-reflective wheel-covered metal sphere mercury gravity vacuum acceleration turbine 8K.

The opposing bouncer-covered metal sphere mercury gravity vacuum turbine 8K aiming at the best experiment is provided with a thrust bearing 80a for supporting thrust and weight, a bearing 80, and a gravity acceleration portion 1g for accelerating the coated metal sphere and mercury. 1G is provided on both sides of the horizontal shaft 16A and is driven outside the turbine outer box 77a, and the opposed ballwheel-covered metal sphere mercury gravity vacuum turbine 8K is driven by the mercury spray pump 6Z. Driven by acceleration, the maximum speed of the coated metal sphere and mercury by gravitational acceleration in vacuum, with the same diameter and approximately the same shape and length, can be exchanged to enable 1 to 120 stage turbine, Injecting into the turbine blade cross section 4X, which has a cross section area of 1 to 26 times the existing turbine blade cross-section, with a volumetric power kg weight m / sec of about 23,000 times that of the existing steam turbine power generation contact In the process of exhaust, the opposed vacuum turbine 8K exhaust is cooled by mercury, a coated metal sphere (mercury heat exchanger 2Z), and (cold condenser 2H) exhaust air 28a in the exhaust process. A vacuum is applied by the air extractor 51, and the coated metal sphere and mercury are stored at the top of the rising sphere riser 2F, and the power generation of the seawater temperature rise 0CO2 exhaust 0 fuel cost 0, and the existing thermal nuclear power generation amount is reduced to 0 To prevent the global warming of the coated metal sphere mercury gravity vacuum accelerated power generation.

In the two types of power generation of the coated metal sphere mercury gravity facing mass turbine 8K and the coated metal sphere mercury gravity facing mass turbine 8K in FIG. 2, each of them is vertically arranged in the turbine outer box 77a in one to a plurality of stages, and the two types are alternately or close to each other. As the multi-stage to be provided, the horizontal shaft 16A can be connected to and disconnected horizontally from 1 to 12 units, and the multi-stage turbine can be easily provided with the same diameter and the same shape and the same length. In the process of driving the coated metal sphere mercury gravity-opposed mass turbine 8K, the increased sphere raising device 2F stores the coated metal sphere and mercury at the uppermost part of the mass turbine by increasing the temperature of the calorie turbine drive temperature, and stores the coated metal sphere and mercury in mercury. The injection pump 6Z injects 400 MPa or the like to accelerate the compressed air control valve 24A open compressed air 28a mass to 400 MPa, etc. The bottle 8K is driven by injection, the compressed air 28a is heated with the coated metal sphere and mercury to increase the volume and output, and the temperature-decreased coated metal sphere and mercury are injected with the mercury injection pump 6Z to open the superheated steam control valve 25. Then, the coated metal sphere and mercury are accelerated with 50 calories of superheated steam such as 400 MPa to drive the heat quantity turbine 8K in which the temperature of the coated metal sphere and mercury rises. The sphere and mercury are stored at the top of the mass turbine, and the mass turbine 8K drive is repeated to produce an unlimited multistage coated metal sphere mercury gravity opposed solar turbine 8K power generation.

The coated metal sphere mercury gravity opposed mass turbine 8K aiming at the best experiment and the coated metal sphere mercury gravity opposed mass turbine 8K horizontal shaft 16A are equipped with the generator 1, the heat pump 1G compression heat recovery device 2C, etc., and the turbine outer box 77a. Driving on both sides, thrust bearing 80a and bearing 80 supporting thrust and weight, and a gravity acceleration part 1g for accelerating the coated metal sphere and mercury are provided and driven, and the coated metal sphere and mercury are added by gravity acceleration by the gravity acceleration part 1g. The maximum atmospheric pressure, the same atmospheric pressure, the same volumetric power, kg weight m / second, and the power generation around 23,000 times that of the existing steam turbine, The turbine blade cross section 4X is injected to increase the rolling contact rotation output of the large blade surface with increased strength. In the exhaust process, the counter calorie turbine 8K exhaust is driven by mercury and coated metal spheres (water) driven by the counter mass turbine 8K. Heat exchanger 2Z) and (cold condenser 2H) are cooled with exhaust air 28a, and in the course of exhaust cooling, exhaust air 28a is cooled with cold heat collector 103 and then cooled with cold condenser 2H and cooled with exhaust air. Dissolve cold heat in deep ocean water intake, etc., increase natural phytoplankton, seaweeds, corals, etc. as much as possible by increasing the speed of natural phenomena, increase food for humans such as fish by the food chain. To expand the coated metal sphere mercury gravity solar power.

In the process of driving, the mass turbine is driven by a coated metal sphere and mercury driven by a calorie turbine, and in the process of driving, the compressed air 28a approaching absolute zero is heated by the coated metal sphere and mercury to increase the volume and output, Driven coated metal sphere and mercury are cooled to low-temperature coated metal sphere and mercury, and the low-temperature coated metal sphere and mercury are used to drive the calorie turbine to increase the temperature of the coated metal sphere and mercury. The mass turbine is driven by mercury and mercury to circulate the coated metal sphere and mercury, and the heat quantity turbine 8K and the mass turbine 8K are provided in multiple stages as much as possible alternately or nearby, and the heat quantity turbine is provided with an air extractor 51. In addition to vacuum acceleration, the cold heat 52e recovered by the cold heat recovery device 103 such as the mass turbine exhaust, for example, to make a cold use prime to manufacture and sell cheap ice near infinity, the banned air-conditioning city abolishment It is a cold summer city that cools the whole ice, and the same amount or more of heat 52d and superheated steam are used for various purposes in the energy conservation cycle heat production. Gravity solar power generation to prevent global warming to reduce nuclear power generation to zero.

  The solar heater 2 in FIG. 3 uses various water surfaces, collects sunlight with the maximum amount of heat in a straight line with the long lens 2d, sets the temperature of the heat absorbing material 2B to 300 degrees, and sets the width of the long lens 2d to 10 m, etc. The intake air passage 28A increases the temperature of the air 28a at a fuel cost of 0, increases the temperature by three days in one day, etc., so that all existing lens cross sections can be selected and used, and the selected lens cross section is extended linearly. By concentrating sunlight in a straight line, the entire lens material can be selected and used, and a long cylinder such as a cylinder is provided by surrounding the heat insulating material 2c such as foamed plastic with a half-cylindrical outer box 77B. The plate 28 is provided with a heat-resistant material 2A and the air 28a is heated by a plate-like heat absorbing material 2B which is heated to high temperature by solar heat, and a plurality of wide and long lenses 2d are sealed at the upper portion by a joint 80A and a fastening tool 80B so as to be vacuum-insulated In the longitudinal direction, it can be extended with a joint 80A. In the case of a 180 degree change of direction, a U-shaped air pipe is connected in parallel to form a solar heater 2 that rotates 180 degrees from the east to the west on the water to make a right angle with the sunlight. As a device that maintains and rotates, air 28a is heated most efficiently.

Fig. 2 Suction compression is set to about 800 degrees by a large number of heat pumps 1G, solar-heated separate air 28a is heated to 500 degrees by a compression heat recovery device 2C, and a plurality of suction compressions are performed by a large number of heat pumps 1G, such as 1200 degrees Heat recovery multiple times around 500 degrees, optimal temperature 24-400MPa compressed air 28a mass + around 400 degrees 24-400MPa superheated steam 50 heat quantity, respectively, coated metal sphere mercury gravity facing mass turbine 8K and coated metal respectively An experiment to drive a spherical mercury gravity-facing calorie turbine 8K, challenge the infinite production of heat and cold energy by generating electricity and compression heat recovery unit 2C at a fuel cost of 0, and use it with compressed air calorie output + compressed air mass output However, it is used for various purposes to minimize the act of converting limited resources such as fossil fuels into combustion CO2, and to prevent limited global warming and leave limited resources to descendants. Utilizing the maximum amount of cold energy, the remainder is dissolved in deep ocean water as nutrients such as oxygen, nitrogen, and CO2 and supplied to the ocean floor, accelerating the natural phenomenon of the North Sea and supplying it to the world ocean floor, phytoplankton and seaweed Increase the food of mankind, breeding corals, fish, etc., increasing the sea surface temperature of existing thermal nuclear power generation by 7 degrees and increasing CO2 exhaust gas to reverse seawater cooling CO2 recovery, sea surface temperature rise 0 CO2 exhaust 0 fuel cost 0 natural phenomenon acceleration To prevent global warming and prevent droughts, torrential rains, rising sea levels, typhoons, seasonal winds and tornadoes.

  The solar thermal augmentation suspension bridge 2b shown in FIG. 4 uses various shores, and has a semicircular rectangular shape in the same manner as described above, and when expanded, a plurality are further tightened and sealed with the fasteners 80B in the width direction, and perpendicular to the sunlight. Move the top and left and right of the hanger left 2f hanger right 2g up and down in a tiltable manner, move and rotate the lower part to match the solar heat-increasing suspension bridge 2b with the moving direction of sunlight. Sunlight of the amount of heat is linearly collected by the long lens 2d, the width of the long lens 2d of the device for heating the air 28a is increased to 10 m, etc., and the temperature of the plate-like heat absorbing material 2B is set to around 300 degrees to take in the intake air The temperature of the air 28a in the passage 28A is increased at a fuel cost of 0, the heat insulating material 2c is surrounded by a rectangular outer box 77B, a long box is provided, and a heat-resistant material 2A is provided therein to increase the temperature by solar heat. 2B equipped air 28a is heated, and a plurality of wide and long long lenses are provided at the top. 2d is sealed with a joint 80A + fastener 80B and can be vacuum-insulated, and can be extended with a joint 80A in the longitudinal direction. In the case of 180 ° change of direction, a suction air passage 28A is connected with a U-shaped pipe, and a plurality of suction air passages are connected. In parallel, the solar thermal augmentation suspension bridge 2b tilts and rotates 180 degrees from east to west on land, and heats the air 28a most efficiently as a device that rotates and tilts in two directions at right angles to sunlight.

Fig. 2 Solar heating air 28a is sucked and compressed to around 800 degrees by a large number of heat pumps 1G, and solar heating air 28a is heated to 500 degrees by a compression heat recovery device 2C and sucked by a large number of heat pumps 1G. Compressed multiple times 1200 degrees, etc., cooled multiple times around about 500 degrees heat recovery, divided and stored into compressed air 28a heat amount + compressed air 28a mass, respectively, coated metal sphere mercury gravity facing mass turbine 8K and coated metal sphere mercury Drive the gravity-facing calorie turbine 8K, challenge the infinite production of hot and cold with the power generation amount and the compression heat recovery unit 2C at zero fuel cost, and experiment using it with compressed air calorie output + compressed air mass output, Used for various purposes as experimental use, etc., to minimize the action of converting limited resources such as fossil fuels into combustion CO2, preventing global warming, leaving limited resources to descendants, and also keeping the coldest The limited use of the remainder as oxygen, nitrogen, CO2 and other nutrients supplied to the ocean floor dissolves into the ocean floor, speeds up the natural phenomenon of the North Sea, and supplies it to the world ocean floor, providing phytoplankton, seaweeds and corals Reproductive CO2 digestive capacity Aiming for tens of thousands of forests, increase fish food and kombu in the food chain, etc., increase human food, reverse the rise in sea surface temperature of existing thermal nuclear power generation by 7 degrees and increase in CO2 emissions Recovery, sea surface temperature rise 0 CO 2 exhaust 0 fuel cost 0 natural phenomenon speeding up to prevent global warming, preventing droughts, torrential rains, sea level rise, typhoons, seasonal winds and tornadoes.

  Seawater temperature rise 0 CO2 exhaust 0 fuel cost 0 natural phenomenon acceleration seawater cooling CO2 recovery power generation, theoretical best turbine covered metal sphere mercury gravity geothermal power generation and solar power generation, etc. Completely abolish existing thermal nuclear power generation, drive low-cost coated metal sphere mercury gravity solar power storage battery drive, various types of automobiles and various types of ships, electric drive full-scale electrified residential prime and factory electrification, cold use and thermal use When the best theoretical turbine is moved from the theoretical best turbine to the best turbine, and the greatest cause of abnormal weather is a rise of 7 degrees in seawater temperature or an increase in CO2, the global phenomenon will be prevented by speeding up natural phenomena and human extinction will be postponed. There is likely to be.

  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 coated metal sphere mercury gravity solar turbine blade cross section (4A) is 1 to 26 times the same diameter, approximately the same shape and the same length Turbine gravity solar power generation speeds up the natural phenomenon + increasing sphere rising device (2F) with coated metal sphere and mercury + Compresses the air heated by sunlight and recovers the heated solar heat by compressing heat + Drives the turbine diameter of the opposed all blade impeller turbine + doubles the long lens (2d) and heat pump (1G ) Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 5 times the same diameter approximately the same shape and same length Turbine gravity solar power generation speeds up the natural phenomenon + increasing sphere lifting device (2F) increases the coated metal sphere and mercury Preserve + Compress air heated by sunlight and heat and compress solar heated air + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat pump (1G) Various energy storage cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 6 times the same diameter, approximately the same shape and the same length Turbine gravity solar power generation speeds up natural phenomena + increased sphere lifting device (2F) increases coated metal sphere and mercury Preserve + Compress the heated air with sunlight to heat and compress the solar heated air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + Drive the long lens (2d) and heat pump (1G) Various energy storage cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 7 times the same diameter, approximately the same shape and the same length Turbine gravity solar power generation speeds up the natural phenomenon + increased sphere lifting device (2F) increases the coated metal sphere and mercury Save + Compress air heated by sunlight to recover compressed heat by heating solar energy + Drive the turbine diameter of the opposed all-wheel impeller turbine 5 times + Long lens (2d) and heat pump (1G) Various energy storage cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 8 times the same diameter, approximately the same shape and the same length Turbine gravity Solar power generation speeds up natural phenomena + Increasing sphere lifting device (2F) raises coated metal sphere and mercury Preserve + Compress air heated by sunlight to recover heat from compressed solar heat + Drive the turbine diameter of the opposed all-wheel impeller turbine + double the long lens (2d) and heat pump (1G) Various energy storage cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 9 times the same diameter, approximately the same shape, the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 10 times the same diameter and approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 12 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 15 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 11 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 12 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 21 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 13 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat and heat + Drive the turbine diameter of the opposed all-wheel impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 14 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4B) 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 15 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 24 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 16 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal spheres and mercury, + compress the heated air with sunlight and recover the heated solar heat by compressing heat + driving the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines with heat pump (1G)   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 26 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 18 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with the same diameter and approximately the same shape and the same length turbine power generation turbine in 19 stages + the storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4A) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine structure in 20 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 4 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 21 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 22 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 6 times the same diameter, approximately the same shape, the same length turbine generator turbine in 23 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4E) 7 times the same diameter, approximately the same shape, the same length turbine power generator structure in 24 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal spheres and mercury, + compress the heated air with sunlight and recover the heated solar heat by compressing heat + driving the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 25 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4A) 9 times the same diameter, approximately the same shape, the same length Turbine generator turbines are provided in 26 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine in 27 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 28 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 29 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat and heat + Drive the turbine diameter of the opposed all-wheel impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 13 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 30 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 31 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 15 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 32 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal spheres and mercury, + compress the heated air with sunlight and recover the heated solar heat by compressing heat + driving the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4B) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 33 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat and heat + Drive the turbine diameter of the opposed all-wheel impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 34 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 35 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 36 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 37 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat and heat + Drive the turbine diameter of the opposed all-wheel impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 38 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 39 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length turbine power turbine structure in 40 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal spheres and mercury, + compress the heated air with sunlight and recover the heated solar heat by compressing heat + driving the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine in 41 stages + storage battery driven various vessel prime + increasing sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compression heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 42 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compression heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 26 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 43 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compression heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4A) with the same diameter and the same shape and the same length turbine generator turbine in 44 stages + the storage battery-driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compression heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 3 times the same diameter, approximately the same shape, the same length turbine generator turbine 45 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compression heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length turbine power turbine structure with 46 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover the heat by compressing heat, driving the turbine diameter three times of the opposed all-blade propeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 5 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 47 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +4 times the turbine diameter of the opposed all-blade propeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 48 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +5 times the diameter of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length turbine power turbine with 49 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter double that of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 8 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 50 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter of the opposed all-blade propeller turbine 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4C) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 54 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 56 stages, + electric drive prime, + heating air compressed with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter 5 times of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine is provided in 57 stages + electric drive prime + heating air is compressed with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter of an opposed all-blade propeller turbine twice the turbine diameter + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 58 stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter of the opposed all-blade propeller turbine 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine provided 59 stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter 4 times of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 18 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 60 stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter of the opposed impeller blade turbine 5 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 61 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + sun Compresses heated air with light and heats and compresses solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine + doubles energy + various energy with long lens (2d) and heat pump (1G) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure provided in 62 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + sun Compresses heated air with light and recovers heated and compressed solar heated air + Drives the turbine diameter of the opposed all-blade propeller turbine 3 times + Various energy with long lens (2d) and heat pump (1G) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 21 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 63 stages + output increasing sphere (2E) small diameter to drive the acceleration turbine + sun Compresses heated air with light and heats and compresses solar heated air + Drives the turbine diameter 4 times of the opposed all-wheel impeller turbine + Various energy with long lens (2d) and heat pump (1G) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 64 stages + power increase sphere (2E) with a small diameter to drive the acceleration turbine + sun Compresses heated air with light and recovers heated solar heat by compressing heat + Drives turbine diameter 5 times of opposed all-wheel impeller turbine + Various energy with long lens (2d) and heat pump (1G) Conservation cycle coalescence organization.   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 23 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 65 stages + power increase sphere (2E) with a small diameter to drive the acceleration turbine + sun Compresses heated air with light and heats and compresses solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine + doubles energy + long lens (2d) and heat pump (1G) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 66 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the heated solar heat by heating and compression + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 25 times the same diameter and the same shape and the same length Turbine power generation turbine installed in 67 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 68 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) is double the same diameter and the same shape and the same length Turbine generator turbine is installed in 69 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 70 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the heated solar heat by heating and compression + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine 71 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-blade propeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 72-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 5 times + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 73 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 74 stage structure + accumulating battery powered various automobiles + coating with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) is 8 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 75-stage structure + storage battery driven various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-blade propeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 9 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length turbine power generator structure with 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 14 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 81 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and heating and recovering the solar heated air + Driving the turbine diameter of the opposed all-wing impeller turbine + double the long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 82 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight to recover the heated and compressed solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 16 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 83 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering heated and compressed heat from the solar heated air + Driving the turbine diameter 4 times of the opposed all-wheel impeller turbine + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 84 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4F) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 85 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and heating and recovering the solar heated air + Driving the turbine diameter of the opposed all-wing impeller turbine + double the long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 86 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 20 times the same diameter, approximately the same shape, the same length turbine generator turbine in 87 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 88 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 22 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 89 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 90 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 91 stages The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 25 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 92 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 93 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with the same diameter and the same shape and the same length turbine power generation turbine with 94 times the same size + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 95 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 4 times the same diameter, approximately the same shape, the same length turbine generator turbine 96-stage structure + storage battery drive various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4F) with 5 times the same diameter, approximately the same shape, the same length turbine generator turbine 97-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 98 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 99 stage structure + Storage battery drive Various automobiles are covered + Increasing ball lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) is 8 times the same diameter, approximately the same shape, the same length turbine power turbine 100 stage structure + storage battery drive to make all types of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 9 times the same diameter and approximately the same length and turbine generator turbine in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 14 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 106 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 107 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) with 16 times the same diameter and approximately the same shape and the same length turbine generator turbine installed in 108 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 109 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 110 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 113 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length turbine power turbine structure with 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 115 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 116 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 117 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 118 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with the same diameter and the same shape and the same length turbine generator turbine with 119 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 120 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 1 stage structure + storage battery drive various automobiles primed + covered with an increasing sphere raising device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine two-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine three-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 7 times the same diameter and approximately the same shape and the same length Turbine power generation turbine 4 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 5 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 11 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 12 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 13 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 14 stages + Factory electrification primed + Increased sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 15 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length turbine power generator structure with 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 21 times the same diameter, approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 24 times the same diameter and approximately the same shape and the same length turbine power generator structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 21 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 22 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with the same diameter, approximately the same shape and the same length turbine generator turbine with 23 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 24 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 25 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 5 times the same diameter and approximately the same shape and length turbine power generation turbine 26-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 27 stage structure + storage battery drive various automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 28-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 8 times the same diameter, approximately the same shape, the same length turbine generator turbine 29-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4E) 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 30 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 31 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 32 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 33 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 13 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 34 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 35 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine installed in 36 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4F) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 37 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 38 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 39 stages + Factory electrification primed + Increased sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 19 times the same diameter and approximately the same shape and the same length turbine power turbine is installed in 40 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 20 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 41 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 42 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 43 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 44 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine in 45 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 46 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 47 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with the same diameter, approximately the same shape and the same length turbine power generation turbine with 48 times + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 49 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 50 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 51 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with 6 times the same diameter, approximately the same shape and the same length Turbine power turbine Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 53 stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) is 8 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 54 stage structure + storage battery driven various cars primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) is 9 times the same diameter and approximately the same shape and length Turbine power generation turbine 55 stage structure + battery powered by various automobiles + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length turbine power turbine with 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 14 times the same diameter approximately the same shape and the same length turbine power generator structure in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 61 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 62 stages + Factory electrification primed + Increased sphere raising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine was installed in 63 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 64 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 65 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 20 times the same diameter, approximately the same shape, the same length turbine generator turbine in 66 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4B) 23 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 71 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 72 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar heat turbine blade cross section (4F) with the same diameter approximately the same shape and the same length turbine power generation turbine installed in 73 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 74 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 75 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with 5 times the same diameter and approximately the same shape and the same length Turbine power generation turbine 76 stage structure + storage battery drive to make all kinds of cars prime Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 77 stage structure + storage battery drive various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 7 times the same diameter and approximately the same shape and length turbine power generation turbine 78 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) is 8 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 79 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 80 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 81 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 82 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 83 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 13 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 84 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 85 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 86 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 87 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 88 stages + Factory electrification prime + Increased sphere raising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 89 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 90 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 93 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 96 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 97 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with the same diameter and the same shape and the same length Turbine power generation turbine with double diameter 98 times + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 3 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 99 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 100 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 101 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 102 stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 103 stage structure + Storage battery drive Various automobiles are covered + Increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) is 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 104 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 9 times the same diameter, approximately the same shape, the same length, turbine generator turbine 105 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length turbine power generator structure with 106 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 11 times the same diameter and the same shape and the same length turbine generator turbine in 107 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 108 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 109 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 110 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 111 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 112 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 113 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 114 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine was installed in 115 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine with 117 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 22 times the same diameter approximately the same shape and the same length turbine generator turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 23 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 119 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 24 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine in one stage + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 2 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with the same diameter and the same shape and the same length turbine power generation turbine doubled in 3 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 4 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 5 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 6-stage structure + storage battery drive to make all types of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 7-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 8-stage structure + storage battery drive various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 9-stage structure + storage battery drive various automobiles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 10-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine 11-stage structure + storage battery drive prime + increase sphere lifting device (2F) with the coated metal sphere Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine 12-stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 13 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with 13 times the same diameter, approximately the same shape, the same length turbine power turbine 14-stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine 15 stage structure + storage battery drive prime + increase sphere lifting device (2F) Storing the mercury upright + Compressing the heated air with sunlight and heating and compressing the solar heated air + Driving the turbine diameter 2 to 12 times of the opposed all-wheel impeller turbine + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine 16-stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine 17 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine 18 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) is 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine 19-stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine 20 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 21 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 22 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 23 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 23 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 24 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 25 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 25 times the same diameter, approximately the same shape, the same length turbine generator turbine in 26 stages + storage battery powered various ship prime + increase sphere lift device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 26 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 27 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4C) double the same diameter approximately the same shape and the same length turbine power generation turbine provided in 28 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 3 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 29 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 30 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 5 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 31 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length turbine power turbines provided in 32 stages ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 33 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 8 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 34 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 35 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4E) 10 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 36 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 11 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 37 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 38 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 39 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 14 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 40 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure provided in 41 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 16 times the same diameter, approximately the same shape, the same length turbine generator turbine in 42 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 43 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape, the same length turbine power turbine structure provided in 44 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 19 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 45 stages + Storage battery driven various vessel prime + Increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 46 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 21 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 47 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 22 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 48 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 23 times the same diameter approximately the same shape and the same length turbine generator turbine in 49 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 50 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4b) 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 51 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 26 times the same diameter, approximately the same shape, the same length turbine generator turbine in 52 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4D) with the same diameter and approximately the same shape and the same length turbine power generator turbine in 53 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 3 times the same diameter and approximately the same length and turbine generator turbines in 54 stages + storage battery powered various vessel prime + increasing sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 55 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 5 times the same diameter and approximately the same shape and the same length turbine generator turbine in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, solar heat-heated air is heated and compressed and heat is recovered. + The turbine diameter of the opposed all blade impeller turbine is driven three times. + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 6 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, the solar heated air is heated and compressed and heat is recovered. + The turbine diameter of the opposed all blade impeller turbine is driven 4 times. + Various energy storage cycle combined engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 7 times the same diameter, approximately the same shape, the same length turbine generator turbine in 58 stages + storage battery drive, electric drive, cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, the solar heated air is heated and compressed and heat is recovered. + The turbine diameter of the opposed all blade impeller turbine is driven 5 times. + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 8 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, the solar heating air is heated and compressed and heat is recovered. + The turbine diameter of the opposed all blade impeller turbine is driven twice. + Various energy storage cycle combined engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length turbine power generator structure in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, solar heat-heated air is heated and compressed and heat is recovered. + The turbine diameter of the opposed all blade impeller turbine is driven three times. + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 61 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 11 times the same diameter approximately the same shape and the same length turbine power generator structure in 62 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 63 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4C) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 64 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4D) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 65 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 66 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 67 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 68 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 69 stages + factory electrification prime + increase sphere ascending device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 19 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 70 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 71 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 72 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 73 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 74 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 75 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 76 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 26 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 77 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with the same diameter and the same shape and the same length turbine generator turbine doubled 78 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 79 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 80 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 81-stage structure + battery-powered various cars primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 82 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 7 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 83 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 84 stage structure + storage battery driven various cars primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 85 stage structure + storage battery drive various automobiles primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 86 stages + storage battery driven prime + increased sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 11 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 87 stages + covered battery drive prime + increased sphere rising device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 88 stages + storage battery drive prime + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 89 stages + covered battery drive prime + increased sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 14 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 90 stages + storage battery driven prime + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 91 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 92 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 93 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 94 stages + factory electrification primed + increase sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine installed in 95 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 96 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 97 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 98 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 99 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure in 100 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 101 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 26 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 102 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with the same diameter and the same shape and the same length turbine power generation turbine doubled in 103 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 104 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 105 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 106 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 107-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 108 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) is 8 times the same diameter, approximately the same shape, the same length turbine power turbine with 109-stage structure + storage battery driven various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) is 9 times the same diameter and approximately the same shape and the same length turbine power turbine 110 stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 10 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 113 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 13 times the same diameter approximately the same shape and the same length turbine power generator structure with 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 115 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 116 stages + Factory electrification primed + Increased sphere raising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 117 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 118 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 119 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 120 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine in a single stage + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in three stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length turbine power generator structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length turbine power generator structure in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 6 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 26 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 7 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine in 8 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 9 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 10 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 11-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 12-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4F) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 13-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 14-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) is 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine 15 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length turbine power generator structure in 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 11 times the same diameter approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery drive, electric drive and cold energy utilization + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 12 times the same diameter and approximately the same shape and the same length turbine generator turbine in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 14 times the same diameter approximately the same shape and the same length turbine power generator structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar heat turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 21 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 22 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 23 stages + factory electrification prime + increasing sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 24 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 19 times the same diameter and approximately the same shape and the same length turbine generator turbine is installed in 25 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length turbine generator turbines are provided in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 21 times the same diameter, approximately the same shape, the same length turbine power turbine in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 28 stages + battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 24 times the same diameter, approximately the same shape, the same length turbine power turbine structure provided in 30 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 31 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 32 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with the same diameter and the same shape and the same length turbine generator turbine doubled in 33 stages + Fully electrified house prime + Speed up natural phenomenon + Increase in increasing sphere The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 34 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 35 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 36-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4F) with 6 times the same diameter, approximately the same shape, the same length turbine power turbine Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine with 38-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 39-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 40-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 41 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 42 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 43 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 44 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 45 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 46 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 47 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 17 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 48 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 49 stages + Factory electrification primed + Increasing sphere lift (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 50 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 54 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 56 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 57 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar thermal turbine blade cross section (4C) double the same diameter approximately the same shape and the same length turbine power generation turbine installed in 58 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 59 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 60 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 5 times the same diameter, approximately the same shape, the same length Turbine generator turbine 61-stage structure + storage battery drive various automobiles primed + Intensifying sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 62 stage structure + storage battery driven various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 63 stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 64 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 9 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 65-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 66 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4B) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length turbine power generator structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 71 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 72 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 73 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 74 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 19 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 75 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length turbine power generation turbine construction in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure with 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 81 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 82 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with double the same diameter and the same shape and the same length turbine power generation turbine installed in 83 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 84 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 85 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 86 stage structure + storage battery drive various automobiles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 87 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 7 times the same diameter and approximately the same shape and length Turbine generator turbine 88-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 8 times the same diameter, approximately the same shape, the same length turbine power turbine with 89-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 90 stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 93 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 96 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 97 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 98 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 99 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 100 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length turbine power generator structure in 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 106 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 107 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with twice the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 108 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 109 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 110 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) is 5 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 111-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 112-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 113 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 114 stage structure + storage battery drive various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4F) with 9 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 115 stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 117 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 119 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4F) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in one stage + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in two stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 3 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 4 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 5 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 22 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 23 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 24 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 11 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 12 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with the same diameter and the same shape and the same length turbine generator turbine in 13 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 14 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 15 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 16-stage structure + storage battery-powered various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 17-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine 18-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 8 times the same diameter, approximately the same shape, the same length, turbine generator turbine 19-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 9 times the same diameter and approximately the same shape and length turbine power generation turbine 20 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine 21-stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) is 11 times the same diameter, approximately the same shape, the same length turbine generator turbine 22-stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 23 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 24 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 25-stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 15 times the same diameter, approximately the same shape, the same length turbine power turbine 26 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine 27 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine 28 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 18 times the same diameter and approximately the same shape and length of turbine generator turbine 29 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) is 19 times the same diameter approximately the same shape and the same length turbine power turbine 30 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length Turbine generator turbines are arranged in 31 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 32 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 33 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 34 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 35 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 25 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 36 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 26 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery powered various vessel prime + increase sphere raising device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4A) with the same diameter and approximately the same shape and the same length turbine power generation turbine in 38 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 3 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 39 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 40 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 5 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 41 stages + storage battery driven various vessel prime + increasing sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 6 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 42 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 43 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) Eight times the same diameter and approximately the same shape and length Turbine power generation turbine structure in 44 stages + Storage battery driven various vessel prime + Increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 45 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 46 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 47 stages + storage battery driven various vessel prime + increasing sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 48 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 49 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 50 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 15 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 51 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 52 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 53 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 54 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 55 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 57 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4C) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 58 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 23 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 59 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 24 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 60 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 61 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 26 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 62 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) with the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 63 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure with 64 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4D) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 5 times the same diameter and approximately the same shape and the same length turbine generator turbine in 66 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover air by compressing heat, driving the turbine diameter 2 to 12 times of the opposed all-blade propeller turbine + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter 4 times the diameter of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length turbine power generator structure with 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +5 times the diameter of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter double that of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter of the opposed all-blade propeller turbine 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 71 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 72 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 73 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 13 times the same diameter approximately the same shape and the same length turbine power turbine structure in 74 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 75 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 15 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 76 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 77 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 78 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4F) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 79 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 80 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 81 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 82 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 83 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 23 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 84 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 85 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 25 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 86 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 87 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with the same diameter and the same shape and the same length turbine generator turbine with double the diameter of 88 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 89 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 90 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 91-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 92-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine 93 stage structure + storage battery driven various automobiles primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) is 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 94-stage structure + storage battery drive to make all kinds of cars prime Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 9 times the same diameter and approximately the same shape and length turbine power generation turbine 95 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 96 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 97 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 98 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 13 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 99 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 100 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 101 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 102 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 103 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 104 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 19 times the same diameter and approximately the same shape and the same length turbine power generation turbine is installed in 105 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 106 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 107 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 108 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 109 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 24 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 110 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 111 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 112 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) has the same diameter and the same shape and the same length turbine power generation turbine with 113 times the stage + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 114 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 4 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 115 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) is 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 116 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 6 times the same diameter, approximately the same shape, the same length, turbine generator turbine 117-stage structure + storage battery-powered various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 118-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 8 times the same diameter and approximately the same shape and the same length turbine power generation turbine 119-stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 120 stage structure + storage battery drive to make all kinds of cars prime Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 11 times the same diameter and the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4C) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length turbine generator turbines are arranged in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 6 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 7 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 8 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 9 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 10 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 11 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 21 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 12 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 13 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 14 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 15 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 16 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 26 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 17 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with the same diameter and the same shape and the same length turbine generator turbine with 18 times the same diameter + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 3 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 19 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 20 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 21-stage structure + storage battery drive to make all types of automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 22-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 23 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 24-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4F) 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 25-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine with 28 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 30 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 31 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 32 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 33 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 34 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 19 times the same diameter and approximately the same shape and the same length Turbine generator turbine is installed in 35 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 36 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine with 38 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 23 times the same diameter approximately the same shape and the same length turbine generator turbine with 39 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 40 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 41 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 26 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 42 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with the same diameter approximately the same shape and the same length Turbine power generation turbine is arranged in 43 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 44 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 45 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 46-stage structure + storage battery drive various automobiles primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 6 times the same diameter, approximately the same shape, the same length Turbine generator turbine 47 stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 48 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 8 times the same diameter, approximately the same shape, the same length Turbine generator turbine 49-stage structure + storage battery drive to make various automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) is 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 50 stage structure + storage battery drive various automobiles primed + covered with an increasing sphere raising device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 13 times the same diameter, approximately the same shape, the same length turbine generator turbine in 54 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 14 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 56 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 16 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 57 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 58 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 59 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 60 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 61 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 62 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 63 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length turbine power turbine structure with 64 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 65 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 25 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 66 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 26 times the same diameter and approximately the same length and turbine generator turbine in 67 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with the same diameter approximately the same shape and the same length turbine power generation turbine doubled in 68 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 69 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 70 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 5 times the same diameter, approximately the same shape, the same length Turbine generator turbine 71 stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 72-stage structure + storage battery drive to make various automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine 73 stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 74 stage structure + storage battery drive to make various automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) is 9 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 75 stage structure + storage battery driven various vehicles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 11 times the same diameter and approximately the same shape and length turbine power turbine with 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length turbine power turbine structure with 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length turbine power generator structure with 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 14 times the same diameter approximately the same shape and the same length turbine power turbine structure with 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 81 stages + Factory electrification primed + Increased sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 82 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 83 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 84 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 19 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 85 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 86 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 87 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 22 times the same diameter approximately the same shape and the same length turbine power generation turbine structure provided in 88 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure with 89 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 90 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 91 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 92 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with the same diameter and the same shape and the same length turbine generator turbine with 93 times the same diameter + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 94 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 95 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross-section (4E) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 96-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4F) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 97-stage structure + storage battery drive various automobiles primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) with 7 times the same diameter, approximately the same shape, the same length, turbine generator turbine 98-stage structure + storage battery-powered various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 99 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4C) 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine 100 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure with 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 14 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 15 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 106 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 107 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 108 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 109 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 110 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 113 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 115 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 116 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 117 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) with the same diameter and the same shape and the same length Turbine generator turbine with 118 times the same size + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 119 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 120 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 5 times the same diameter, approximately the same shape, the same length Turbine generator turbine 1 stage structure + storage battery driven various cars primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 2-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 3-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 4 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4D) 9 times the same diameter and approximately the same shape and length turbine power generation turbine 5 stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 10 times the same diameter approximately the same shape and the same length turbine power generator structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 11 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 12 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 13 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 14 stages + Factory electrification primed + Increased sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 15 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length turbine power generator structure with 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 21 times the same diameter, approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4E) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) with 24 times the same diameter and approximately the same shape and the same length turbine power generator structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 21 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 22 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with the same diameter, approximately the same shape and the same length turbine generator turbine with 23 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 24 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 25 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4A) 5 times the same diameter and approximately the same shape and length turbine power generation turbine 26-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 27 stage structure + storage battery drive various automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4C) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 28-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) with 8 times the same diameter, approximately the same shape, the same length turbine generator turbine 29-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4E) 9 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 30 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine 31 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar heat turbine blade cross section (4A) is 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine 32 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) 12 times the same diameter and approximately the same shape and the same length turbine power generation turbine 33 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 34 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4D) is 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 35 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4E) with 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine 36-stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4F) with 16 times the same diameter, approximately the same shape and the same length turbine power turbine 37 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4A) 17 times the same diameter, approximately the same shape, the same length turbine power turbine 38 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4B) with 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine 39 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4C) is 19 times the same diameter, approximately the same shape, the same length turbine power turbine 40-stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4D) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 41 stages + storage battery powered various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 42 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 43 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 23 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 44 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 45 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4C) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 46 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 26 times the same diameter, approximately the same shape and the same length turbine generator turbine in 47 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4E) with the same diameter and approximately the same shape and the same length turbine power generation turbine in 48 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4F) 3 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 49 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4A) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 50 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4B) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 51 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4C) with 6 times the same diameter, approximately the same shape, the same length turbine generator turbine in 52 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4D) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine in 53 stages + storage battery driven various ship priming + increasing sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 55 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length turbine generator turbine in 57 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine 58 stage + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 59 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 60 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) 15 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 61 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 16 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 62 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 63 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 64 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4E) 20 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 66 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 67 stages + storage battery driven various ship priming + increasing sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 68 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4B) with 23 times the same diameter and the same shape and the same length turbine generator turbine in 69 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine 70 structure + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4E) 26 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 72 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4F) double the same diameter approximately the same shape and the same length turbine power generation turbine provided in 73 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 74 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 75 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter 4 times the diameter of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length turbine power generation turbine in 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +5 times the diameter of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter double that of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter of the opposed all-blade propeller turbine 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter 4 times the diameter of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 81 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same length and turbine generator turbine structure in 82 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine structure provided in 83 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 84 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 85 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 86 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 87 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 88 stages + factory electrification prime + increase sphere ascending device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine installed in 89 stages + factory electrification primed + increasing sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 90 stages + factory electrification prime + increase sphere climbing device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 93 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 96 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 97 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 98 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and length Turbine power generation turbine installed in 99 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 100 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 101-stage structure + storage battery drive to make various automobiles primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 102 stage structure + Storage battery drive Various automobiles are covered + Increasing ball lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine generator turbine 103-stage structure + storage battery-powered various vehicles primed + increasing sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 104 stage structure + storage battery driven various cars primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length turbine power turbine with 105-stage structure + storage battery driven various automobiles + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 106 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 107 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length turbine generator turbine in 108 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length turbine generator turbine with 109 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 110 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 111 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 112 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 113 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 114 stages + factory electrification prime + increase sphere ascending device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 115 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length turbine generator turbine in 117 stages + storage battery drive, electric drive and chilling use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescence engine equipped with a long lens (2d) and a heat pump (1G), driving a water alloy to drive 5 times the turbine diameter of three types of opposed all-wheeled impeller turbines for power generation.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine generator turbine in 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 119 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generator structure in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length Turbine generator turbine in one stage + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape and the same length turbine generator turbine in 2 stages + full electrification house full rise + natural phenomenon speed up + increasing sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine in 3 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 4 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 5 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 6-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 7-stage structure + storage battery-powered various cars primed + increasing sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 8 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 9 stage structure + storage battery driven various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine 10 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 11 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 12 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 13 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 14 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 15 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 16 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 17 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 18 stages + factory electrification prime + increase sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 19 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 20 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 21 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 22 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 23 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 24 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 25 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 26 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 27 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine in 28 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 29 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 30 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 31-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 32 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine generator turbine 33-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and the same length turbine power generation turbine 34 stage structure + storage battery drive various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 35-stage structure + storage battery drive various automobiles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power turbine with a 36-stage structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine with 38 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length turbine generator turbine with 39 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine in 40 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 41 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 42 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 43 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 44 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 45 stages + factory electrification prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 46 stages + storage battery drive, electric drive, cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 47 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 48 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 49 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 50 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbines are provided in 51 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 52 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine with 53 times + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbines are provided in 54 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 55 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 56-stage structure + storage battery drive various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine generator turbine 57-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, turbine generator turbine 58-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, turbine generator turbine 59-stage structure + storage battery-powered various cars primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length Turbine generator turbine 60 stage structure + storage battery driven various cars primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 61 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 62 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 63 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power turbine structure with 64 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine in 65 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 66 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 67 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length Turbine generator turbine is installed in 68 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 69 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 70 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 71 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 72 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine power turbine with a 73-stage structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 74 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 75 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 76 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter and approximately the same shape and length Turbine generator turbine is installed in 77 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine doubled 78 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 79 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 80 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 81-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length Turbine power generation turbine 82 stage structure + storage battery driven various cars primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and the same length of turbine power turbine Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 84 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 85 stage structure + storage battery drive to make various automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 86 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 87 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine with 88 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generator structure provided in 89 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power generator structure in 90 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 91 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 92 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 93 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 94 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 95 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine power generator structure in 96 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 97 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 98 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 99 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generator structure in 100 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 101 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 102 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 103 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 104 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 105 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 106 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 107-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 108 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, turbine power turbine with 109-stage structure + storage battery-powered automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine 110 stage structure + storage battery drive various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 113 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 115 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine was installed in 116 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 117 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 118 stages + Factory electrification prime + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 119 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 120 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine in 6 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 7 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 8 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 9 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 10 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter and approximately the same shape and length turbine power generation turbine 11-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 12-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and the same length of turbine generator Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 14-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 15-stage structure + storage battery drive to make various automobiles primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generator structure in 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power generator structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 21 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 22 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 23 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 24 stages + factory electrification prime + increase sphere ascending device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length turbine power generation turbine is installed in 25 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 28 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 30 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 31 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 32 stages + full electrification of residential house + speeding up natural phenomenon + increasing sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 4 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine with 33 times the same height + Fully electrified residential prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and length Turbine power generation turbine provided in 34 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine + double Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 35 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The equipment (2F) stores and raises the coated metal spheres and mercury + compresses the heated air with sunlight and recovers the solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 36-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length turbine power turbine Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape and the same length Turbine power generation turbine 38-stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 39-stage structure + storage battery drive to make all kinds of automobiles wide + sphere rising device (2F) covered Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power turbine 40-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating metal spheres and water to generate electricity 4x diameter drive + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine 41 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine 42 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine 43 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine 44 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 45 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine 46-stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine generator turbine 47 stage structure + battery drive prime + increase sphere raising device (2F) Mercury is stored up + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Turbine diameter of opposed all blade impeller turbine is driven 3 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine power generation turbine 48 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Solar heated air is compressed and solar heated air is heated and compressed to recover heat + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and length turbine power generation turbine 49 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight and heated and compressed heat recovered from solar heated air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and length turbine power turbine 50 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heat + Drives twice the turbine diameter of the opposed all-wheel impeller turbine + long lens (2d) and heat pump ( 1G) various energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 51 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length turbine power generation turbine in 52 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 53 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 55 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power generator structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 57 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter approximately the same shape and the same length turbine generator turbine in 58 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) three times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 59 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine 60 stages + Storing battery driven various vessels primed ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 61 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 62 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 63 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generator structure in 64 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 65 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 66 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length turbine generator turbine in 67 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 68 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 69 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 70 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape and the same length turbine generator turbine in 72 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length Turbine power generation turbine structure in 73 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 74 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 75 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is constructed in 76 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 77 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Drive the turbine diameter 5 times of the opposed all blade impeller turbine + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 78 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + Compress the heated air with sunlight to recover the heated solar heat by compressing heat + Drive the turbine diameter of the opposed all blade impeller turbine + double the long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 79 stages + storage battery powered various ship priming + increasing sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated solar heat by heating and compression + Drive the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens ( 2d) and various energy storage cycle coalescing engines equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine power turbine structure provided in 80 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + Compress the heated air with sunlight and recover the heated and heated solar air + Drive the turbine diameter 4 times of the opposed all blade impeller turbine + long lens ( 2d) and various energy storage cycle coalescing engines equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 81 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 82 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with the same diameter approximately the same shape and the same length turbine power generation turbine in 83 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 84 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 85 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and store the coated metal sphere and mercury + to compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + various energy as a power generation method that recovers and uses the combined air temperature and cold Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 86 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +5 times the diameter of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 87 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter double that of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 88 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter of the opposed all-blade propeller turbine 3 times + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine generator turbine structure provided in 89 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive the turbine diameter 4 times the diameter of the opposed all-wing impeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power turbine structure with 90 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Combines various energy storage cycle engines that recover heat and compress heat and drive +5 times the diameter of the opposed impeller blade turbine wheel + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 93 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 96 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 97 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 98 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 99 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 100 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine generator turbine in 103 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 106 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter and approximately the same shape and the same length turbine generator turbine in 107 stages + full electrified house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbine with 108 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and length Turbine generator turbine with 109 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure with 110 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 111-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length Turbine power generation turbine 112-stage structure + storage battery drive to make various cars prime Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine 113 stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 114 stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 115 stage structure + storage battery drive various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generator structure with 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 117 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 119 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in one stage + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 2 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 3 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 4 stages + factory electrification prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 5 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine power turbine structure with 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine in 9 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 11 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape, the same length turbine generator turbine in 12 stages + full electrified house prime + speeding up natural phenomenon + increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 13 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine structure with 14 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine with 15 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine generator turbine 16-stage structure + battery-powered various cars primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 17-stage structure + storage battery drive to make all types of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, turbine generator turbine 18-stage structure + storage battery-powered various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and the same length of turbine generator Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 20 stage structure + storage battery drive to make all kinds of cars primed + increasing sphere ascending device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 21 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 22 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 23 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length turbine generator turbine in 24 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 25 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 26 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 27 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine generator turbine provided in 28 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 29 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 30 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 31 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure with 32 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 33 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 34 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 35 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine generator turbine in 36 stages + full electrified house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine in 37 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine generator turbine in 38 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and length Turbine generator turbine with 39 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 40 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine generator turbine 41-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 42-stage structure + storage battery-powered various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 43 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 44 stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 45-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 46 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 47 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine power generator structure with 48 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine generator turbine in 49 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power turbine structure with 50 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 51 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 52 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 53 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 54 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length Turbine generator turbine is installed in 55 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbines in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length turbine generator turbine in 61 stages + full electrified house prime + speeding up natural phenomenon + increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter and approximately the same shape and length Turbine generator turbine structure in 62 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 63 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine structure with 64 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine structure with 65 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine generator turbine 66-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine generator turbine 67-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and the same length Turbine generator turbine 68-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and length turbine power generation turbine with 69-stage structure + storage battery driven various vehicles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine 70 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 71 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length turbine generator turbine in 72 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 73 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 74 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power turbine structure with 75 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 76 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine generator turbine installed in 77 stages + plant electrification primed + increase sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and same length turbine power generation turbine installed in 78 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 79 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 80 stages + factory electrification prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 81 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 82 stages + storage battery drive, electric drive and cold energy utilization + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 83 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 84 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure with 85 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 86 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length turbine generator turbine in 87 stages + full electrified house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with double diameter of the same shape and length The turbine generator turbine has 88 stages + full electrified house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 89 stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure with 90 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 91-stage structure + storage battery-powered various automobiles primed + covered with increasing sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 92-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine generator turbine 93 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 94 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 95 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 96 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 97 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine with 98 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 99 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 100 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 101 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 102 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 103 stages + plant electrification primed + increased sphere lift device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 104 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 105 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbine in 106 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 107 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 108 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 109 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 110 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 111 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length turbine generator turbine 112-stage structure + full electrified house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine of 113 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine with 114 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine with 115 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation, 116-stage structure + storage battery drive, various types of automobiles covered + increasing sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine power turbine with 117-stage structure + storage battery driven various vehicles primed + covered with a rising sphere lift (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, turbine generator turbine 118-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 119-stage structure + storage battery driven various automobiles primed + increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length turbine power turbine 120-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length turbine generator turbine in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 6 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 7 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 8 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 9 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 10 stages + Factory electrification primed + Increasing sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 11 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 12 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 13 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 14 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure with 15 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine with 16 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbine is provided in 17 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine with 18 times the same structure + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine generator turbine in 19 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 20 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 21-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 22-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, turbine generator turbine 23-stage structure + storage battery-powered various vehicles primed + increased sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 24 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 25-stage structure + storage battery drive to make various automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power turbine structure in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 28 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 30 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 31 stages + Factory electrification primed + Increased sphere lifting device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 32 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 33 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all-wheel impeller turbine 4 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 34 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated and heated solar air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Long lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 35 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing spheres and mercury ascending + Compressing air heated by sunlight and recovering heated and compressed heat from solar heating air + Driving turbine diameter of opposed all-wheel impeller turbine + double lens (2d) and heat Various energy storage cycle coalescence engine equipped with a pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine in 36 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 4 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length turbine generator turbine with 38 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 5 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine equipped with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 39 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives twice the turbine diameter of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 40 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Drives the turbine diameter 3 times of the opposed full blade impeller turbine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 41 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape and the same length Turbine generator turbines in 42 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 43 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + drives the turbine diameter of the opposed all blade impeller turbine twice + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbines in 44 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives turbine diameter of opposed all blade impeller turbine 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine 45-stage structure + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + drives the turbine diameter 4 times the turbine diameter of opposed all blade impeller turbine + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 46-stage structure + storage battery-powered various cars primed + increased sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine generator turbine 47 stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter of the opposed all-blade propeller turbine + double lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 48-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing air heated by sunlight and recovering heated and compressed heat from solar heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine 3 times + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 49-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 4 times of the opposed all-bladed impeller turbine + Long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine 50-stage structure + storage battery drive various automobiles primed + covered with increasing sphere lifting device (2F) Ascending and storing metal spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Driving the turbine diameter 5 times of the opposed all-wheel impeller turbine + long lens (2d) Various energy storage cycle coalescence engine equipped with heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine gravity solar power generation speeds up the natural phenomenon + increased sphere lifting device (2F) increases the coated metal sphere and mercury Storing + Compressing heated air with sunlight and recovering heated and compressed solar heat + Drive 1 to 12 turbine diameters twice with opposed all blade turbine horizontal axis (16A) + Long lens ( 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomena + Increases sphere riser (2F) to increase coated metal sphere and mercury Storing + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Drives 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal axis (16A) + Long lens ( 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length Turbine gravity solar power generation speeds up the natural phenomenon + increasing sphere lifting device (2F) increases the coated metal sphere and mercury Preserve + Compress air heated by sunlight to recover heat from compressed solar heat + Drive 4 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) + long lens ( 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and same length Turbine gravity solar power generation speeds up the natural phenomenon + increasing sphere lifting device (2F) increases the coated metal sphere and mercury Storing + Compressing heated air with sunlight and recovering heated and compressed heat of solar heated air + Drives 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Long lens ( 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length Turbine gravity solar power generation speeds up the natural phenomenon + increased sphere lifting device (2F) increases the coated metal sphere and mercury Storing + Compressing heated air with sunlight and recovering heated and compressed solar heat + Drive 1 to 12 turbine diameters twice with opposed all blade turbine horizontal axis (16A) + Long lens ( 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length turbine generator turbine in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length turbine generator turbine in 54 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine generator turbines in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 61 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 62 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbines arranged in 63 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 64 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 65 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 5 times + a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 66 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine in 67 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generator structure in 68 stages + storage battery drive various vessel prime + increase sphere lift device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 69 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 70 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 72 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 73 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 74 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine in 75 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 76 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 77 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape, the same length turbine generator turbine in 78 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 79 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure in 80 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 81 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 82 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 83 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 84 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 85 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbines in 86 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbine diameters twice with shaft (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape and the same length turbine generator turbine structure in 87 stages + storage battery driven various ship primes + increasing sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 3 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generator turbine in 88 stages + storage battery driven various ships prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 4 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length turbine generator turbine structure provided in 89 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 5 times + a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 90 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbine diameters twice with shaft (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 91 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Combined bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 92 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + make the fitting bolt assembly turbine diameter 4 times the same diameter and the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 93 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + assemble the fitting bolts with the same diameter and the same shape to 5 times the turbine diameter in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 94 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To store the coated metal sphere and mercury in an elevated manner + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + increase the diameter of the fitting bolt assembly turbine with the same diameter approximately the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Combined bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 96 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Recovers air by heat and compression + Drives 4 to 12 turbine diameters with opposed all-blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescence engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine generator turbine in 97 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbines 5 times diameter + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine with 98 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters twice + Long energy lens (2d) and heat pump (1G) .   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 99 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all rotor blades horizontal axis (16A) drives 1 to 3 turbine diameters 3 times + Various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 100 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Recovers heat by compressing heat + Accelerates coated metal spheres and mercury by compressing air and driving 1 to 12 turbines 4 times the diameter with opposed all-blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) Various energy conservation cycle coalescence engines.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power turbine structure with 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure with 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine power generation turbine provided 106 stages + electric drive prime + heating air compressed with sunlight Recovers solar heated air by heating and compressing heat + Drives 1 to 12 turbine diameters double with opposed horizontal blade turbine horizontal axis (16A) + Provide long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 107 stages + electric driving prime + heating air is compressed with sunlight Recovers solar heated air by heating and compressing heat + Drives 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Various energy storage with long lens (2d) and heat pump (1G) Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 108 stages + electric drive prime + heating air is compressed with sunlight Recovers solar heated air by heating and compressing heat + Drives 4 to 12 turbine diameters by opposed horizontal blade turbine horizontal axis (16A) + Saves various energy by providing long lens (2d) and heat pump (1G) Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 109 stages + electric drive prime + heating air compressed with sunlight Compressed heat recovery from solar heated air + Drives 1 to 12 turbine diameters 5 times with opposed all blade turbine horizontal shaft (16A) + Saves various energy by providing long lens (2d) and heat pump (1G) Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine is installed in 110 stages + electric drive prime + compressing the heating air with sunlight Recovers solar heated air by heating and compressing heat + Drives 1 to 12 turbine diameters double with opposed horizontal blade turbine horizontal axis (16A) + Provide long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 111 stages + power increasing sphere (2E) small diameter to drive the acceleration turbine + sun Compress air heated by light to heat and compress solar heated air + Drive all turbine blades 3x in diameter with opposed all blade turbine horizontal axis (16A) + Long lens (2d) and heat Various energy storage cycle coalescence engine with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 112 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + sun Compresses heated air with light and heats and compresses solar heated air by heating + Drives 4 to 12 turbine diameters with opposed all-blade turbine horizontal axis (16A) + Long lens (2d) and heat Various energy storage cycle coalescence engine with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) having the same diameter and approximately the same shape and the same length turbine power generation turbine in 113 stages + Acceleration turbine drive with a small diameter of output increase sphere (2E) + sun Compress air heated by light to heat and compress solar heated air + heat drive 1 to 12 turbines 5 times in diameter with opposed all-blade turbine horizontal axis (16A) + long lens (2d) and heat Various energy storage cycle coalescence engine with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine provided in 114 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + sun Compress air heated by light to heat and compress solar heated air + Heating compressed heat + Opposing all rotor blades Horizontal axis (16A) drives 1 to 12 turbine diameters twice + Long lens (2d) and heat Various energy storage cycle coalescence engine with a pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 115 stages + power increase sphere (2E) is the small diameter to drive the acceleration turbine + sun Compress the heated air with light to heat and compress the solar heated air by heating + accelerating the coated metal spheres and mercury with compressed air, and 1 to 12 turbine diameters 3 on the opposed all blade turbine horizontal axis (16A) Double energy drive + long energy lens (2d) and heat pump (1G), combined with various energy storage cycle engines.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine generator turbine with 116 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times driving + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length Turbine generator turbine with 117 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + drives the turbine diameter of the opposed all blade impeller turbine 5 times + Various energy storage cycle coalescing engines equipped with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length turbine generator turbine with 118 stages + full electrified house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with twelve turbine diameters driven + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine generator turbine with 119 stages + full electrified house prime + speeding up natural phenomenon + increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines that drive 12 turbine diameters 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length Turbine generator turbine with 120 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + accelerating coated metal spheres and mercury with compressed air Various energy storage cycle coalescing engines with a turbine blade horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine one-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine two-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine three-stage structure + storage battery drive to make various automobiles primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and heat and compress solar heated air + 1 to 12 turbines on heavy allotted opposed rotor blades horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 4 stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 5 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length turbine generator turbine in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power turbine structure with 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Structure and method of accelerating the hot water ball vertically downward by installing the turbine power generation turbine with counter-coating metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and length turbine generator turbine + vertical drive and electric drive + Uses cold energy to gather + Collects sunlight in a straight line with a long lens (2d) + Increases and stores coated metal spheres and mercury with an increasing sphere rising device (2F) + Compresses heating air with sunlight Recovers light-heated air by heating and compressing heat + Drives 5 times the diameter of 1 to 12 turbines with opposed all-blade turbine horizontal axis (16A) + Various energy storage cycles with long lens (2d) and heat pump (1G) Combined organization.   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 11 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 12 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 13 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length turbine power generation turbine installed in 14 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 15 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power generator structure in 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and the same length turbine generator turbine in 17 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine provided in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generator structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine generator turbine in 21 stages + full electrified house prime + speeding up natural phenomenon + increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various turbines with various energy conservation cycles that drive 12 turbines 5 times in diameter and have a long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine in 22 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescence engine with 12 turbine diameters driven + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure in 23 stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines that drive 12 turbine diameters 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine generator turbines in 24 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times driving + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and length Turbine generator turbines in 25 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + accelerating coated metal spheres and mercury with compressed air Various energy storage cycle coalescing engines equipped with a turbine blade horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 10 times the same diameter, approximately the same shape, the same length, turbine generator turbine 26-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 27 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering heated solar heat by compressing heat + Accelerating hot water of heavier material vertically downward and facing all rotor blades horizontal axis (16A) Drives 1 to 12 turbines 3 times in diameter + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length turbine power generation turbine 28-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 29-stage structure + storage battery drive to make all types of automobiles primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 14 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 30 stage structure + storage battery driven various vehicles primed + increasing sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 31 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and length turbine power generation turbine provided in 32 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 33 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 34 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 35 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 36 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine installed in 37 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 38 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length turbine generator turbine installed in 39 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 40 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 41 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter, approximately the same shape, the same length turbine generator turbine in 42 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter approximately the same shape and the same length turbine generator turbine with 43 stages + structure battery drive, electric drive and chilling use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 44 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 45 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape and the same length Turbine generator turbine in 46 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with twelve turbine diameters driven + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length Turbine generator turbine with 47 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines that drive 12 turbine diameters 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine is provided in 48 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times driving + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length Turbine generator turbine with 49 stages + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various turbines with various energy conservation cycles that drive 12 turbines 5 times in diameter and have a long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and length Turbine generator turbine 50-stage structure + Fully electrified house prime + Speed up natural phenomenon + Increasing sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + accelerating coated metal spheres and mercury with compressed air Various energy storage cycle coalescing engines with a turbine blade horizontal axis (16A) driving 1 to 12 turbine diameters twice + a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and length turbine power generation turbine 51 stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 52-stage structure + storage battery drive to make all kinds of automobiles primed + increase ball rising device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 53-stage structure + storage battery driven various automobiles primed + covered with increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 54 stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 55 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length turbine power generator structure in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine generator turbine in 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generation turbine structure with 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 61 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 62 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + Accelerating the water alloy vertically downward and 1 on the opposed all blade turbine horizontal axis (16A) Drives 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 63 stages + factory electrification primed + increase sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 64 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 65 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driving + various energy storage cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length turbine generator turbine in 66 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and the same length turbine generator turbine in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generator structure in 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 71 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 72 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 73 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 74 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 75 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 3 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length, turbine generator turbine 76-stage structure + storage battery-powered various vehicles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine 77-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine 78 stage structure + storage battery drive various automobiles primed + covered with an increasing sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine 79 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine power generation turbine 80 stage structure + storage battery drive to make all types of automobiles primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter, approximately the same shape, the same length turbine generator turbine in 81 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure with 82 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine power generator structure with 83 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 84 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 85 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 23 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 86 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine installed in 87 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 88 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape, the same length turbine generator turbine installed in 89 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of turbine generator turbine installed in 90 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are driven twice + long energy source (2d) and heat pump (1G) to provide various energy storage cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 93 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 96 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter and the same shape and the same length Turbine generator turbine installed in 97 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 98 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 99 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 100 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbines 4 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 101 stage structure + storage battery driven various vehicles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 102 stage structure + storage battery driven to make various automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 103 stage structure + storage battery drive to make all kinds of cars prime Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 104 stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 18 times the same diameter, approximately the same shape, the same length, turbine power turbine with 105-stage structure + storage battery-powered various vehicles primed + increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 5 times the turbine diameter of 1-12 turbines + various energy storage cycle coalescing engines provided with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 106 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 107 stages + storage battery drive, electric drive, cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine with 108 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine power turbine in 109 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine in 110 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 111 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 112 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine installed in 113 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and same length Turbine power generation turbine installed in 114 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 115 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power turbine structure with 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with 6 times the same diameter approximately the same shape and the same length turbine power generation turbine with 117 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length turbine generator turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine generator turbine structure installed in 119 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine generator turbine in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in one stage + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 2 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 3 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 4 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine generator turbines are provided in 5 stages + full electrification of residential houses + speeding up natural phenomena + increasing sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 5 times with blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine 6-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 7-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 8-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 18 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 9-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and length turbine power generation turbine 10-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters are driven twice + various energy storage cycle combined engines provided with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 11 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 12 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 13 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 14 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure with 15 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 16 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 17 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 18 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine generator turbine installed in 19 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 20 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length turbine generator turbine in 21 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 22 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 23 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 24 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 25 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 26 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 27 stages The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 28 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 29 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drive the turbine diameter 5 times of the stand + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 30 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters twice with a blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length turbine generator turbine 31-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coating metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine 32 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine 33-stage structure + storage battery driven various automobiles primed + covered with a rising sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 19 times the same diameter and approximately the same shape and length turbine power generation turbine 34-stage structure + storage battery driven various automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine 35-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters 3 times driving + long energy lens (2d) and heat pump (1G) provided various energy storage cycle coalescing engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length turbine generator turbine in 36 stages + storage battery drive, electric drive and cold energy utilization + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length turbine generator turbine in 38 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine generator turbine in 39 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 40 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 41 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length Turbine power generation turbine provided in 42 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 43 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 44 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) drive + length lens (2d) and heat pumps (1G) various energy conservation cycle combined engine provided.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 45 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 46 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generator structure provided in 47 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 48 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 49 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 50 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 51 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 52 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 53 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 54 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 55 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose Drives 1 to 12 turbine diameters 3 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape, the same length turbine power generation turbine 56-stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine 57-stage structure + storage battery drive various automobiles primed + covered with a rising sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 19 times the same diameter and approximately the same shape and the same length turbine power generation turbine 58 stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine providing driving + length lens (2d) and heat pumps (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape and the same length turbine power generation turbine 59-stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length, turbine generator turbine 60-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 22 times the same diameter, approximately the same shape, the same length turbine power generator 61 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 23 times the same diameter, approximately the same shape, the same length turbine generator turbine 62 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives double turbine diameters of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 24 times the same diameter and approximately the same shape and the same length turbine generator turbine 63 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives 1 to 12 turbine diameters 3 times with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine power generation turbine 64 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with double diameter of approximately the same shape and the same length turbine power turbine 65 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover compressed air heated by heat + Compressed metal spheres and mercury are accelerated by compressed air, and 1 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with driving 12 turbine diameters 5 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is three times the same diameter approximately the same shape and the same length turbine generator turbine 66 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives double turbine diameters of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 4 times the same diameter and approximately the same shape and the same length turbine power generation turbine 67 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives 1 to 12 turbine diameters 3 times with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length turbine power turbine 68 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine generator turbine with 69-stage structure + storage battery drive prime + increasing sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine generator turbine 70 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover compressed air heated by heat + Compressed metal spheres and mercury are accelerated by compressed air, and 1 on the opposed all blade turbine horizontal axis (16A) Drives 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 71 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 72 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 73 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 74 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 75 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 3 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length turbine power generation turbine construction in 76 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 77 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 78 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 79 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 80 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 81 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 82 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 83 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length turbine generator turbine in 84 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 85 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 86 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 87 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 88 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 89 stages + the storage battery drive various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure with 90 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 91 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 92 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 93 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 94 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generator structure in 96 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 4 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine with 97 stages + storage battery driven various vessel prime + increasing sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 5 times + a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 98 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbine diameters twice with shaft (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 99 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 3 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter approximately the same shape and the same length turbine generator turbine in 100 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 4 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 101 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + assemble the fitting bolts with the same diameter and the same shape to 5 times the turbine diameter in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 102 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To store the coated metal sphere and mercury in an elevated manner + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + increase the diameter of the fitting bolt assembly turbine with the same diameter approximately the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 103 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Combined bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 104 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + make the fitting bolt assembly turbine diameter 4 times the same diameter and the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 105 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + assemble the fitting bolts with the same diameter and the same shape to 5 times the turbine diameter in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 106 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight The solar heated air is heated and compressed and heat is recovered + 1 to 12 turbine diameters are driven by the opposed all-blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G) are provided Energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 107 stages + storage battery drive, electric drive, cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight Then, the solar heated air is heated and compressed and heat is recovered + 1 to 12 turbine diameters are driven three times by the opposed all blade turbine horizontal axis (16A) + a long lens (2d) and a heat pump (1G) are provided Energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine generator turbine with 108 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight To recover the solar heated 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 types of long lens (2d) and heat pump (1G) Energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine power turbine in 109 stages + storage battery drive, electric drive and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight The solar heated air is heated and compressed to recover heat + Drives 5 times the turbine diameter of 1 to 12 turbines with the opposed all-blade turbine horizontal axis (16A) + Various types provided with a long lens (2d) and a heat pump (1G) Energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine in 110 stages + storage battery drive, electric drive, and cold energy use + sunlight Gather in a straight line with a long lens (2d) + Raise the head as much as possible with a pumping device (1J) + Increase and store the coated metal sphere and mercury with an increasing ball lifting device (2F) + Compress the heating air with sunlight The solar heated air is heated and compressed and heat is recovered. + Coated metal spheres and mercury are compressed to accelerate the compressed air, and the opposed all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters twice. 2d) and a combined energy storage cycle engine equipped with a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine with 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine with 113 times the structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine generator turbine with 115 stages + battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 116 stages + Factory electrification primed + Increased sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines by 4 times the turbine diameter of the opposed all blade turbine Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 117 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 118 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 119 stages + plant electrification primed + covered with increasing sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 120 stages + Factory electrification prime + Increased sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length turbine generator turbine in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 6 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 7 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 8 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 9 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 10 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters twice with a blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length, turbine generator turbine 11-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 12-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is covered with a 13-stage structure of a turbine generator turbine of 22 times the same diameter and approximately the same shape and length + storage battery driven various automobiles + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 23 times the same diameter, approximately the same shape, the same length turbine power generation turbine 14-stage structure + storage battery driven various vehicles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 15-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters 3 times drive + long energy lens (2d) and heat pump (1G) provided various energy conservation cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length turbine generator turbine with 16 stages + covered battery drive prime + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is doubled with the same diameter, approximately the same shape, the same length turbine generator turbine in 17 stages + covered battery drive prime + increased sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length turbine generator turbine in 18 stages + storage battery driven prime + increased sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine provided in 19 stages + storage battery driven prime + increased sphere lifting device (2F) covered Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 20 stages + Storage battery drive prime + Increased sphere lifting device (2F) covered Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 21 stages + Factory electrification primed + Increased sphere raising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 22 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 23 stages + factory electrification prime + increase sphere ascending device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 24 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 25 stages + factory electrification prime + increase sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driving + various energy storage cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine generator turbine in 28 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power turbine with a 30-stage structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 31 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter and the same shape and the same length Turbine power generation turbine provided in 32 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 33 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and length turbine power turbine is installed in 34 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 35 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 3 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine with 36-stage structure + storage battery-powered various vehicles primed + covered with increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length turbine power turbine Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine 38-stage structure + storage battery drive various automobiles primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine 39 stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length turbine power generation turbine with 40-stage structure + storage battery driven various automobiles primed + increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbine in 41 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with three times the same diameter and the same shape and the same length turbine generator turbine in 42 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 43 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine generator turbine in 44 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length turbine generator turbine in 45 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 46 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 47 stages + factory electrification prime + increase sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 48 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 49 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 50 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are driven twice + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine power generator structure in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 54 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 56 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 57 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 58 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 59 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter and approximately the same shape and the same length Turbine power generation turbine is installed in 60 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbines 4 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine generator turbine 61-stage structure + storage battery driven various vehicles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine power generation turbine 62 stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 24 times the same diameter, approximately the same shape, the same length turbine generator turbine 63-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 64 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape, the same length turbine power generation turbine 65-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 5 times the turbine diameter of 1-12 turbines + various energy storage cycle coalescing engines provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross-section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine structure in 66 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generator structure in 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 71 stages + factory electrification prime + increase sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 72 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 73 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 74 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 75 stages + factory electrification prime + increase sphere riser (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length turbine generator turbine in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine in 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length turbine generator turbine in 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generator structure with 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 81 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 82 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 83 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 84 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 85 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 5 times with blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length turbine generator turbine 86-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine 87 stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 25 times the same diameter, approximately the same shape, the same length turbine power generation turbine with 88-stage structure + storage battery-powered various vehicles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is doubled with the same diameter, approximately the same shape, the same length, turbine generator turbine with 89-stage structure + storage battery driven various automobiles + covered with increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length turbine generator turbine 90-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 91 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length turbine generator turbine structure in 92 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 93 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure with 94 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 95 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 96 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 97 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 98 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 99 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 100 stages + factory electrification primed + increasing sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times drive + various energy conservation cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length turbine power generator structure in 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length turbine generator turbine in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine generator turbine in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine power generator structure with 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 106 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 107 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in 108 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 109 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine is installed in 110 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters twice with a blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 24 times the same diameter, approximately the same shape, the same length turbine power turbine 111-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length turbine power generation turbine 112-stage structure + storage battery drive various automobiles primed + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is doubled with the same diameter, approximately the same shape, the same length turbine power generation turbine 113 stage structure + storage battery driven various vehicles primed + increased sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine 114 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 4 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 115 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters 3 times drive + long energy lens (2d) and heat pump (1G) provided various energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power turbine structure with 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with 6 times the same diameter approximately the same shape and the same length turbine power generation turbine with 117 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length turbine generator turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine generator turbine structure installed in 119 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine generator turbine in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine power generation turbine installed in one stage + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape and the same length turbine generator turbine in 2 stages + factory electrification prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 3 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 4 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 5 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driving + various energy storage cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length turbine generator turbine in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power turbine structure with 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 11 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbines installed in 12 stages + full electrification of residential houses + speeding up natural phenomena + increasing sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 13 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 14 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 15 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 3 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 16-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is doubled with the same diameter, approximately the same shape, the same length, turbine generator turbine, 17-stage structure + storage battery driven, various automobiles primed + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine generator turbine 18-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 4 times the same diameter and approximately the same shape and the same length turbine power generation turbine 19-stage structure + storage battery drive various automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine power turbine 20-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A 1 to 12 turbine diameters 4 times driving + long lens (2d) and heat pump (1G) to provide various energy storage cycle combined engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length turbine generator turbine in 21 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 22 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 23 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 24 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 25 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 26 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 27 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 28 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 29 stages + Factory electrification primed + Increasing sphere climbing device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 30 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are driven twice + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 31 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generator structure provided in 32 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 33 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 34 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 35 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 36 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 37 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine provided in 38 stages + Fully electrified residential prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 39 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 40 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbines 4 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is doubled with the same diameter, approximately the same shape, the same length turbine power generation turbine 41-stage structure + storage battery driven various automobiles + covered with an increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length, turbine power generation turbine 42-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 4 times the same diameter, approximately the same shape, the same length, turbine generator turbine 43-stage structure + storage battery drive to make all kinds of cars primed + increase sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 44 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 45-stage structure + storage battery-powered various vehicles primed + increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 5 times the turbine diameter of 1-12 turbines + various energy storage cycle coalescing engines provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 46 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generator structure provided in 47 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 48 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 49 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 50 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 51 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 52 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 53 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 54 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 55 stages + Factory electrification primed + Increase sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length turbine generator turbine in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure with 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 61 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 23 times the same diameter and approximately the same shape and length Turbine power generation turbine provided in 62 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 63 stages + full electrification house prime + speed up natural phenomenon + increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 64 stages + full electrification house full rise + natural phenomenon speed up + increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 65 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 5 times with blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length Turbine power generation turbine 66 stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 4 times the same diameter, approximately the same shape, the same length, turbine generator turbine with 67-stage structure + storage battery-powered various vehicles primed + increased sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine power generation turbine 68-stage structure + storage battery driven various automobiles primed + covered with an increasing sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, turbine generator turbine 69-stage structure + storage battery drive to make all types of automobiles primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with seven times the same diameter, approximately the same shape, the same length turbine power generation turbine 70 stage structure + storage battery driven various vehicles primed + covered with an increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length turbine generator turbine 71 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives 1 to 12 turbine diameters 3 times with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length turbine generator turbine 72 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 10 times the same diameter, approximately the same shape, the same length turbine power turbine 73 stage structure + storage battery drive prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine 74 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives double turbine diameters of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 75 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover compressed air heated by heat + Compressed metal spheres and mercury are accelerated by compressed air, and 1 on the opposed all blade turbine horizontal axis (16A) Drives 12 turbine diameters 3 times + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 13 times the same diameter, approximately the same shape and the same length turbine generator turbine 76 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine 77 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine 78 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives double turbine diameters of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 16 times the same diameter and approximately the same length and turbine power generation turbine 79 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover heated and compressed heat from solar heated air + Drives 1 to 12 turbine diameters 3 times with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape, the same length turbine power turbine 80 stage structure + storage battery drive prime + increase sphere raising device (2F) Mercury is stored and stored + Compressed air heated by sunlight to recover compressed air heated by heat + Compressed metal spheres and mercury are accelerated by compressed air, and 1 on the opposed all blade turbine horizontal axis (16A) Drives 12 turbine diameters 4 times + Combines various energy storage cycle engines with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 81 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 82 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 83 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length turbine generator turbine in 84 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 85 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 5 times + a long lens (2d) and a heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 86 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 87 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 88 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 89 stages + the storage battery drive various ships prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length Turbine power generation turbine structure with 90 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 91 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 92 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 93 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length turbine power generation turbine in 94 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length turbine power generator structure in 96 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length turbine generator turbine with 97 stages + storage battery driven various vessel prime + increasing sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 98 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 99 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter approximately the same shape and the same length turbine generator turbine in 100 stages + storage battery driven various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine generator turbine in 101 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 102 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Double energy driving cycle + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 103 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 3x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 104 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 4x diameter drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine power generation turbine installed in 105 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal spheres and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 5x diameter drive + long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure in 106 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbine diameters twice with shaft (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar thermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 107 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 3 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 108 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbines 4 times on shaft (16A) + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length turbine generator turbine with 109 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 5 times + a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 110 stages + storage battery driven various vessel prime + increase sphere lifting device (2F ) To save the coated metal sphere and mercury ascending + compressing the air heated by sunlight and recovering the solar heated air by heating and compressing heat + accelerating the coated metal sphere and mercury compressed air and facing the all rotor blades horizontally Drives 1 to 12 turbine diameters twice with shaft (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length turbine power generation turbine installed in 111 stages + storage battery powered various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Combined bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 112 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + make the fitting bolt assembly turbine diameter 4 times the same diameter and the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine in 113 stages + storage battery driven various vessel prime + increasing sphere raising device (2F ) To cover and save the coated metal sphere and mercury + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + assemble the fitting bolts with the same diameter and the same shape to 5 times the turbine diameter in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) three times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 114 stages + storage battery drive various vessel prime + increase sphere lifting device (2F ) To store the coated metal sphere and mercury in an elevated manner + compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + increase the diameter of the fitting bolt assembly turbine with the same diameter approximately the same shape in multiple stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 115 stages + storage battery powered various ship prime + increase sphere lifting device (2F ) To cover and save the coated metal sphere and mercury + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Combined bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power turbine structure with 116 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Recovers air by heat and compression + Drives 4 to 12 turbine diameters with opposed all-blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescence engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with 6 times the same diameter approximately the same shape and the same length turbine power generation turbine with 117 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbines 5 times diameter + Various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length turbine generator turbine with 118 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters twice + Long energy lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length turbine generator turbine structure installed in 119 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Compressed heat recovery of air + Opposite all rotor blades horizontal axis (16A) drives 1 to 3 turbine diameters 3 times + Various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G) .   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length turbine generator turbine in 120 stages + storage battery drive, electric drive and cold energy use + sunlight Collecting in a straight line with a long lens (2d) + Increasing the head with an increasing sphere raising device + Increasing and storing coated metal spheres and mercury with an increasing sphere raising device (2F) + Compressing the heating air with sunlight and heating the sunlight Recovers heat by compressing heat + Accelerates coated metal spheres and mercury by compressing air and driving 1 to 12 turbines 4 times the diameter with opposed all-blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) Various energy conservation cycle coalescence engines.   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine generator turbine in one stage + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter approximately the same shape and the same length turbine generator turbine in two stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length turbine generator turbine in 3 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine structure in 4 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 5 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 6 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 7 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 8 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 9 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 10 stages + Factory electrification primed + Increasing sphere climbing device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are driven twice + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 11 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 12 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 13 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 14 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine power turbine structure with 15 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 16 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine doubled in 17 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 18 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 19 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 20 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbines 4 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length turbine power generation turbine 21-stage structure + storage battery drive to make all kinds of cars prime Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length Turbine generator turbine 22-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length turbine power generation turbine 23-stage structure + storage battery drive various automobiles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, is the same length turbine power generation turbine 24-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine 25-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 5 times the turbine diameter of 1-12 turbines + various energy storage cycle coalescing engines provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 26 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 27 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine generator turbine in 28 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 29 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine power turbine with a 30-stage structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 31 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 32 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 33 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 34 stages + Factory electrification primed + Intensifying sphere climbing device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 35 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length turbine generator turbine in 36 stages + storage battery drive, electric drive and cold energy utilization + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 37 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length turbine generator turbine in 38 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine generator turbine in 39 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length turbine power turbine structure with 40 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine generator turbine of 41 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with three times the same diameter and approximately the same shape and the same length Turbine power generation turbine provided in 42 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 43 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 44 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 45 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 5 times with blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length Turbine power turbine 46 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 47 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 48-stage structure + storage battery driven to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length Turbine generator turbine 49-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length Turbine power generation turbine 50 stage structure + Storage battery drive Various automobiles are primed + Increasing sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length turbine power generator structure in 51 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power turbine is provided in 52 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 53 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine provided in 54 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generation turbine provided in 55 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycles in which coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbine diameters 3 with opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G) Combined organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length turbine generator turbine is installed in 56 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 57 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine was installed in 58 stages + plant electrification primed + increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 59 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape and the same length Turbine generator turbine provided in 60 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times drive + various energy conservation cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length turbine generator turbine in 61 stages + storage battery drive, electric drive and cold energy use Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine generator turbine in 62 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 63 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine generator turbine in 64 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbine with 65 stages + structure battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 66 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 67 stages The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposing coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 68 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 69 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 70 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters twice with a blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length turbine generator turbine 71 stage structure + storage battery driven various automobiles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length turbine generator turbine 72-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and length turbine power generation turbine 73 stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 74 stage structure + storage battery drive to make all types of automobiles primed + increasing sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length Turbine generator turbine 75 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters 3 times driving + long energy lens (2d) and heat pump (1G) provided various energy storage cycle coalescing engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length turbine generator turbine in 76 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length turbine generator turbine in 77 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length turbine generator turbine in 78 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length turbine power generator structure with 79 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 80 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 81 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power turbine is installed in 82 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 83 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 84 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 85 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driving + various energy storage cycle coalescence engine provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 86 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 87 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 88 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine doubled in 89 stages + storage battery drive, electric drive, and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine structure in 90 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 91 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 92 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 93 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 94 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 95 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 3 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) is 9 times the same diameter, approximately the same shape, the same length turbine generator turbine 96-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 10 times the same diameter, approximately the same shape, the same length, turbine generator turbine 97-stage structure + storage battery-powered automobiles primed + covered with a rising sphere lift (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine 98 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 99 stage structure + storage battery drive various automobiles primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 100 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 101 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length turbine power generator structure in 102 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length turbine generator turbine in 103 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length turbine generator turbine in 104 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length turbine power generator structure with 105 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 106 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 107 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length turbine power generation turbine is installed in 108 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine was installed in 109 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 23 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 110 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are driven twice + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length turbine generator turbine with 111 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 112 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine power generation turbine with 113 times the structure + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 114 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine generator turbine with 115 stages + battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 116 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter and approximately the same shape and length Turbine power generation turbine is installed in 117 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 118 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 119 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite-coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and length Turbine generator turbine is installed in 120 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbines 4 times on the blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length turbine power generation turbine one-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine two-stage structure + storage battery drive to make all kinds of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine three-stage structure + storage battery drive to make various automobiles primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coating metal sphere Mercury gravity Solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length turbine power generation turbine 4 stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length turbine power generation turbine 5 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 5 times the turbine diameter of 1-12 turbines + various energy storage cycle coalescing engines provided with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length turbine generator turbine structure in 6 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length turbine generator turbine in 7 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power turbine structure with 8 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 9 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 11 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length Turbine power generation turbine is installed in 12 stages + Factory electrification primed + Increasing sphere lifting device (2F) Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 13 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length turbine power generation turbine installed in 14 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 15 stages + Factory electrification primed + Increasing sphere lifting device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length turbine power generator structure in 16 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and the same shape and the same length turbine generator turbine in 17 stages + structure battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine structure in 18 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power turbine structure provided in 19 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 20 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 21 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length Turbine power generation turbine provided in 22 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 23 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 24 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is provided in 25 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters 5 times with blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) is 11 times the same diameter, approximately the same shape, the same length turbine power generation turbine 26-stage structure + storage battery drive to make all kinds of cars primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 27 stage structure + storage battery drive various automobiles primed + covered with increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length turbine power generation turbine 28-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 29-stage structure + storage battery drive to make all kinds of automobiles primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine 30 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 31 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generator structure provided in 32 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length turbine power generation turbine provided in 33 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length turbine generator turbine provided in 34 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length turbine power generation turbine in 35 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated with compressed air to drive 1 to 12 turbines 3 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length Turbine power generation turbine provided in 36 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 37 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length turbine power generation turbine installed in 38 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter and approximately the same shape and the same length turbine power generation turbine installed in 39 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 40 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length turbine power generation turbine in 41 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with three times the same diameter and the same shape and the same length turbine generator turbine in 42 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length turbine power generation turbine structure in 43 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length turbine generator turbine in 44 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length turbine generator turbine in 45 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 5 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 46 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 8 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 47 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 3 times + long energy lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length Turbine power generation turbine provided in 48 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 4 times of the base + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 49 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores and raises the coated metal spheres and mercury + compresses the air heated by sunlight and recovers the solar heated air by heating and compression heat + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter 5 times + the long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length Turbine generator turbine is installed in 50 stages + Fully electrified house prime + Speed up natural phenomenon + Increase sphere rise The device (2F) stores the coated metal sphere and mercury ascending + compresses the air heated by sunlight and recovers the solar heated air by heating and compressing heat + accelerates the coated metal sphere and mercury by compressing the air to oppose all movement Drives 1 to 12 turbine diameters twice with a blade turbine horizontal axis (16A) + various energy conservation cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length turbine power generation turbine 51-stage structure + storage battery drive to make various automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 52-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and the same length turbine power generation turbine with 53 stage structure + storage battery driven various vehicles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length turbine power generation turbine with 54 stage structure + storage battery drive to make all types of automobiles primed + increasing sphere lifting device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape, the same length, turbine power generation turbine 55 stage structure + storage battery drive to make all types of automobiles primed + increase sphere lift device (2F) Storing metal spheres and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compressing heat + Accelerating coated metal spheres and mercury compressed air to opposed all rotor blade horizontal axis (16A ) 1 to 12 turbine diameters 3 times drive + long energy lens (2d) and heat pump (1G) provided various energy conservation cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 56 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length turbine generator turbine in 57 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length turbine power generator structure with 58 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length turbine generator turbine provided in 59 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length turbine power generation turbine structure in 60 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Coated metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbines 4 times the diameter of the opposed turbine blade horizontal axis (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 61 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 62 stages + Factory electrification primed + Increased sphere riser (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length Turbine generator turbine installed in 63 stages + Factory electrification primed + Increased sphere rising device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 25 times the same diameter, approximately the same shape and the same length Turbine power generation turbine is installed in 64 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) with twice the same diameter, approximately the same shape and the same length Turbine generator turbine is installed in 65 stages + Factory electrification primed + Increased sphere lift device (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + various energy storage cycle coalescing engines provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross-section (4X) three times the same diameter approximately the same shape and the same length turbine generator turbine structure in 66 stages + storage battery drive, electric drive and cold energy use prime + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed full blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length turbine power generation turbine structure in 67 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalesced engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length turbine power generator structure in 68 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length turbine generator turbine is provided in 69 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by opposed horizontal blade turbine horizontal axis (16A) + long lens (2d) and heat pump (1G).   Opposite-coated metal sphere mercury gravity solar turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length turbine generator turbine structure in 70 stages + storage battery drive, electric drive and cold energy use + sunlight Collect in a straight line with the long lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by compressing heat + Covered metal spheres and mercury are accelerated by compressed air to drive 1 to 12 turbine diameters twice with opposed full blade turbine horizontal shaft (16A) + long lens (2d) and heat pump (1G) to save various energy Cycle coalescence engine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages In (2F), the coated metal sphere and mercury are raised and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Drives the turbine diameter of 3 times + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length solar power turbine is installed in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere lift device In (2F), the coated metal sphere and mercury are raised and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle combined engine provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length solar power turbine is provided in multiple stages + full electrification house prime + speeding up natural phenomenon + increasing sphere rising device In (2F), the coated metal sphere and mercury are raised and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + various energy storage cycle coalescence engine provided with a long lens (2d) and a heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrified house prime + speed up natural phenomenon + increase sphere rising device In (2F), the coated metal sphere and mercury are raised and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 on the opposed all blade turbine horizontal axis (16A) Driven by twice the turbine diameter of the engine + various energy storage cycle coalescing engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full-scale electrified house prime + speeding up natural phenomenon + increasing sphere lift device In (2F), the coated metal sphere and mercury are raised and stored. + The heated air is compressed by sunlight and the solar heated air is heated and compressed and heat is recovered. Various energy storage cycle coalescing engines provided with a turbine horizontal shaft (16A) driving 1 to 12 turbine diameters 3 times + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, solar power turbine multi-stage structure + storage battery driven various automobiles + coated sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines 4 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, solar power turbine multistage structure + storage battery driven various automobiles + coated sphere lifting device (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length Solar power turbine multi-stage structure + storage battery drive various automobiles + coated sphere rising device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and compressed solar air + Reducing the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length, solar power turbine multi-stage structure + storage battery driven various automobiles + coated sphere riser (2F) coated metal Storing the sphere and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engine with drive + long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length Solar power turbine multi-stage structure + storage battery driven various automobiles + coated sphere riser (2F) coated metal Sphere and mercury are stored and stored + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Coated metal sphere and mercury compressed air accelerated to opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times driving + various energy storage cycle coalescence engine with long lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, solar power turbine multi-stage structure + storage battery drive prime + coated sphere riser (2F) with coated metal sphere and mercury + Compresses the air heated by sunlight and recovers the compressed air by heating and compressing heat + Drives 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity Solar turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, solar power turbine multistage structure + storage battery drive prime + coated sphere riser (2F) with coated metal sphere and mercury + Compressing air heated by sunlight and recovering solar heating air by heating and compressing heat + Drives twice the turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity Solar turbine blade cross section (4X) multistage structure of solar thermal power turbine with 20 times the same diameter and approximately the same shape and length + storage battery drive prime + coated sphere riser (2F) with coated metal sphere and mercury + Compressing air heated by sunlight and recovering heated and compressed solar heat + Rotating 1 to 12 turbines 3 times the diameter of the opposed all-blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity Solar turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape and the same length, solar power turbine multistage structure + storage battery drive prime + increase sphere raising device (2F) with coated metal sphere and mercury + Compressing air heated by sunlight and recovering heat by compressing solar heating air + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G). Opposed coated metal sphere mercury gravity Solar turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, solar power turbine multi-stage structure + storage battery drive prime + coated sphere riser (2F) with coated metal sphere and mercury + Compressed air heated by sunlight to recover compressed air heated by heating + Compressed metal spheres and mercury are accelerated by compressed air and 1 to the horizontal axis (16A) of the opposed rotor blades Various turbines with various energy conservation cycles that drive 12 turbines 5 times in diameter and have a long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity Solar turbine blade cross-section (4X) 23 times the same diameter, approximately the same shape, the same length, solar power turbine multi-stage structure + battery drive prime + coated sphere riser (2F) with coated metal sphere and mercury + Compressing air heated by sunlight and recovering solar heating air by heating and compressing heat + Drives twice the turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity Solar turbine blade cross section (4X) is 24 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + increase sphere lifting device (2F) coated metal sphere and mercury + Compressing air heated by sunlight and recovering heated and compressed solar heat + Rotating 1 to 12 turbines 3 times the diameter of the opposed all-blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) multi-stage structure of solar thermal power generation turbine with the same diameter approximately 25 times the same diameter + storage battery drive prime + coated sphere and mercury with increasing sphere raising device (2F) + Compressing air heated by sunlight and recovering heat by compressing solar heating air + Drives 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) + Long Various energy storage cycle coalescing engine with lens (2d) and heat pump (1G).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by compressing heat + 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the air heated by sunlight and recover the solar heated air by heating and compression heat recovery + Double 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 for 3 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 4 stages and 4 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages and 5 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 6 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 to 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 8 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages to 9 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 10 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 11 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages, 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 14 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 15 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 4 times 16 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 18 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 19 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in four stages to 20 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 21 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 22 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 23 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 4 stages, 24 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages, 25 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 26 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 27 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 29 stages, etc. 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 30 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 31 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 4 stages, 32 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To store the metal balls and mercury in the rising position + Compress the heated air with sunlight to recover the heated solar air heat and heat + Recover the heat and compression heat of the solar + The same diameter and shape of the fitting bolt assembly Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal spheres and mercury in the air + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the diameter of the fitting bolt with the same diameter and the same shape to 34 times the turbine diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal sphere and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Add the same diameter and the same fitting bolt assembly 3 times the diameter of the turbine to 35 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) The metal balls and mercury are stored in an ascending manner, + the heating air is compressed with sunlight, and the solar heating air is heated and compressed to recover heat. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compression heat + Increase the diameter of the fitting bolt with the same diameter and the same shape to 37 times the turbine diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 38 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 39 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 40 stages, etc. with 4 times turbine diameter 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generators and heat pumps in 41 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generators and heat pumps in 42 stages, etc. with double turbine diameters of 1 to 12 on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is a combined engine of various energy storage cycles with a generator and heat pump in 48 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 49 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 50 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times An energy storage cycle coalescence engine with a generator and heat pump in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with a turbine rotor horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 58 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 59 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 60 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and equipped with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 2 stages, etc., with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc. with 5 to 10 turbine diameters of all 12 blade turbine horizontal shafts (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 13-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 14 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 15-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 17 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled on all blade turbine horizontal shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbines 4 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters 3 times, 23 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 24 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times larger in diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 26 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times larger in diameter and 27 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with 3 turbine diameters of 1 to 12 turbines in the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times the diameter and 49 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled and 50 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 51 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times larger in diameter and 52 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters doubled by 58 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbine diameters 5 times the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc. with 5 to 10 turbine diameters of all 12 blade turbine horizontal shafts (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 15 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 18 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 19 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 22 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters tripled by horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with 3 turbine diameters of 1 to 12 turbines in the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 38 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 39 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters 4 times 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled in 42 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 43 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 44 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 46 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages, etc., with 1 to 12 turbine diameters doubled by 50 blades on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 53 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 54 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 55 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters doubled by 58 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbine diameters 5 times the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times larger than 3 turbines in 3 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 4 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and 5 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 6 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 7 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) doubling the various energy conservation cycle combined engine provided with a generator and heat pump 9 stages, or the like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 various energy saving cycles combined engine provided with a generator and heat pumps 10 stages like the magnification.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 3 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 16 stages of 1 to 12 turbines 4 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescing engine with a generator and heat pump in 18 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 19 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with 20-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with a generator and heat pump in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters tripled by horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 28 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 29 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 30 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 31 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 32 generators and generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) doubling the various energy conservation cycle combined engine provided with a generator and heat pump 33 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engine with generator and heat pump in 35 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 doubling the various energy conservation cycle combined engine provided with a generator and heat pump 36 stages like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 37 stages like the magnification.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 39 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbines 4 times the diameter of all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times An energy storage cycle coalescence engine with a generator and heat pump in 44 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 45 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages, etc., with 1 to 12 turbine diameters doubled by 50 blades on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times the diameter of 53 turbines and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 54 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 55 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 56 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 5 times 57 stages etc. equipped with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 doubling the various energy conservation cycle combined institutions provided with a generator and heat pump in 58 stages and the like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 doubling the various energy conservation cycle combined institutions provided with a generator and heat pump in 59 stages and the like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 various energy saving cycles combined engine provided with a generator and heat pump 60 stages like the magnification.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump first stage like the magnification.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in two stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Add 3 times the turbine 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Add 4 times the turbine diameter 4 times from 1 to 12 with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1-12 turbines 5 times 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Saves mercury and compresses heated air with sunlight to recover solar heated air by heating and compression heat recovery + Doubles the diameter of 1 to 12 turbines 6 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 7 times with the opposed all-blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Add the turbine diameter 4 times 1 to 12 with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 5 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1-12 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar air by heating and compressing heat + Add the turbine diameter of 1 to 12 to 3 times the turbine diameter on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Add 12 times the turbine diameter 4 times with 1 to 12 turbine blades with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 14 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 15 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 4 times 16 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 18 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 19 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in four stages to 20 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 21 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 22 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 23 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 4 stages, 24 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages, 25 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 26 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 27 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 29 stages, etc. 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 30 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 31 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 4 stages, 32 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 33 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 34 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 35 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 36 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 37 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 38 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 39 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 4 times 40 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 times 41 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 42 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heated air by heating and compressing heat + assemble the fitting bolts with the same diameter and the same shape with 3 times the diameter of the turbine assembly to 43 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heated air by heating and compressing heat + assemble the bolts with the same diameter and the same shape with a fitting bolt assembly 4 times the diameter of the turbine to 44 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating / compressing heat + Fit bolt assembly with the same diameter and the same shape 5 times the turbine diameter to 45 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the heated solar heat by heating and compressing heat + assemble the bolts with the same diameter and the same shape fitting bolt assembly turbine diameter doubled to 46 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compression heat + Fit bolt assembly with the same diameter and the same shape 3 times the turbine diameter to 47 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 48 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine with generator and heat pump installed in 49 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 50 stages with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 51 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with a turbine rotor horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 58 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 59 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages of 3 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 4 to 12 turbine diameters 4 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages of 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 8 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 9 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 10 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters 3 times 11 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines with 4 times the diameter of the turbine and 12 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled on all blade turbine horizontal shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbines 4 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescence engine which has a generator and heat pump in 23 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine of various energy storage cycles with a generator and heat pump in 25 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 4 turbine diameters 4 to 12 on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 33 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 34 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 35 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 36 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 37 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engine with generator and heat pump in 39 stages and so on.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is a combined engine of various energy storage cycles with a generator and heat pump in 48 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 49 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 50 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times An energy storage cycle coalescence engine with a generator and heat pump in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with a turbine rotor horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 58 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 59 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 60 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and equipped with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 2 stages, etc., with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc. with 5 to 10 turbine diameters of all 12 blade turbine horizontal shafts (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 13-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 14 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 15-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 17 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled on all blade turbine horizontal shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbines 4 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters 3 times, 23 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 24 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times larger in diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 26 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times larger in diameter and 27 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with 3 turbine diameters of 1 to 12 turbines in the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times the diameter and 49 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled and 50 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 51 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times larger in diameter and 52 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters doubled by 58 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbine diameters 5 times the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc. with 5 to 10 turbine diameters of all 12 blade turbine horizontal shafts (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 15 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters tripled by horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with 3 turbine diameters of 1 to 12 turbines in the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 38 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 39 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled in 42 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engine with generator and heat pump in 43 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages, etc., with 1 to 12 turbine diameters doubled by 50 blades on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 53 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 54 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 55 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters doubled by 58 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbine diameters 5 times the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times larger than 3 turbines in 3 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 4 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and 5 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 6 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 7 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover solar heated air by heating and compression + Heat recovery from compressed air + Horizontal turbine shaft (16A) for opposed turbine blades 5 to 13 times the turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressing air heated by sunlight and recovering heated and compressed solar heat + Heating and compressing heat recovery of solar heated air + 14 turbine doublings of 1 to 12 turbines with a horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover solar heated air by heating and compression heat recovery + Opposite all blade turbine horizontal axis (16A) 15 to 3 times the turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover solar heated air by heating and compressing heat recovery + Opposed all rotor blades horizontal axis (16A) 1 to 12 turbine diameters 4 times 16 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover solar heated air by heating and compression heat recovery + Opposed all rotor blades horizontal axis (16A) 17 turbines 5 times the diameter of 17 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled on all blade turbine horizontal shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbines 4 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters tripled by horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc. with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 28 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc. 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 5 times as many as 30 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 31 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 32 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 33 stages for 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 34 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 35 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 36 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps four times in 37 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 39 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 40 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in 5 stages, 42 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 43 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 times various energy storage cycles combined engine provided with a generator and heat pump 44 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps four times in 45 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 47 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 with 3 times 48 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 49 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 5 times in 50 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in double 51 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 52 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 54 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 55 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 56 stages, etc. 3 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 57 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + assembling bolt assembly with the same diameter and the same shape 5 times the turbine diameter to 58 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the fitting bolt assembly turbine diameter twice the same diameter to 59 stages etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Approximately the same diameter fitting bolt assembly 3 times the diameter of the turbine to 60 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + Approximately the same diameter fitting bolt assembly 4 times the diameter of the turbine as a single stage Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Approximately same fitting bolt assembly 5 times the diameter of the turbine with the same diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine with 1 to 12 turbine diameters doubled in 3 stages, etc., with generator and heat pump on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 5 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generators and heat pumps in 6 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine with 1 to 12 turbine diameters doubled in 7 stages etc. in 7 stages etc. on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycles with generators and heat pumps in 13 stages with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycles with generators and heat pumps in 14 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycles with generators and heat pumps in 15 stages with 1 to 12 turbine diameters doubled by the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycles with generators and heat pumps in 16 stages with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + electric drive prime + heating air compressed with sunlight Combines various energy storage cycles with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 4 times the horizontal axis (16A) of opposed turbine blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine structure + power increasing sphere (2E) small diameter to drive the acceleration turbine + sunlight Compress the heated air and recover the heated solar heat by compressing heat + Heating the generator and heat pump to 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine structure + power increasing sphere (2E) small diameter to drive the acceleration turbine + sunlight Compressing the heated air and recovering the heated solar heat by compressing and recovering the heat + Heat from the opposed rotor blades horizontal axis (16A) to double the turbine diameter of 1-12 turbines to 19 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine structure + power increasing sphere (2E) small diameter to drive the acceleration turbine + sunlight Compressing the heated air and recovering the heated solar heat by compressing the heat + Heating the heat generators and heat pumps by increasing the turbine diameter of 1 to 12 turbines to 20 stages etc. with the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine structure + power increasing sphere (2E) small diameter to drive the acceleration turbine + sunlight Compress the heated air and recover the solar heated air by heating and compressing heat + The counter-rotating blade turbine horizontal shaft (16A) is equipped with a generator and heat pump to reduce the turbine diameter of 1 to 12 turbines to 21 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine structure + power increasing sphere (2E) small diameter to drive the acceleration turbine + sunlight Compressing the heated air and recovering the heated solar heat by compressing and recovering heat + Heating the generator and heat pump to 22 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters and 23 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 24 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter 5 times in 26 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter doubled to 27 stages or the like.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter four times in 49 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter 5 times in 50 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter doubled to 51 stages or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 52 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with lens (2d) + Increase and store coated metal sphere and mercury with increasing sphere raising device (2F) + Compress air heated by sunlight and recover solar heated air by heating compression heat + Opposite Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 5 times the diameter and 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 15 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines doubled on opposite all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 38 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 39 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 42 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 43 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times various energy saving cycles combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 54 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 55 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 3 stages, etc., with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters 3 times 4 stages and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 4 times the diameter of the turbine and 5 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in 6 stages and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 7 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescing engine with a generator and heat pump in 18 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 19 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 20-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with a generator and heat pump in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 28 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 29 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 30 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 31 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 32 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 33 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 35 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 37 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 43 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 44 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 45 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 53 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 54 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 55 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 56 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 57 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump at 59 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters doubled in 3 stages on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 8 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy conservation cycles with a generator and heat pump in 9 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 10 stages like the.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 11 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 12 stages like the.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 18 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 19 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times, 20 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 21 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 22 generators and generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 28 times with the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat recovery + Increase the turbine diameter of 1-12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 5 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) 30 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 31 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat recovery + 32 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the opposed rotor blades various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by compressing heat + Concentrate the turbine diameter of 1 to 12 turbines by 33 times with the opposed horizontal blade turbine horizontal axis (16A) 33 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1-12 turbines by 5 times with the opposed horizontal blade turbine horizontal axis (16A) 34 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) on the opposite side 35 times 35 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Add the turbine diameter of 1 to 12 turbines to 36 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the solar heated air by heating and compressing heat + Add the turbine diameter of 1 to 12 turbines to 4 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) 37 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 39 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 40 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in 5 stages, 42 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 43 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 times various energy storage cycles combined engine provided with a generator and heat pump 44 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps four times in 45 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 47 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 with 3 times 48 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 49 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 5 times in 50 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in double 51 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 52 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 54 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 55 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 56 stages, etc. 3 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 57 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 times 58 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages as 1 stage.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages in 2 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 2 stages in 3 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 4 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 5 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages to 6 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 7 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To store the metal sphere and mercury ascending + Compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the diameter of the fitting bolt assembly turbine with the same diameter and the same shape to 8 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury with + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Increase the diameter of the fitting bolt with the same diameter and the same shape to 4 times the turbine diameter to 9 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + the same diameter and the same shape of the fitting bolt assembly turbine diameter 5 times to 10 stages etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + double the diameter of the fitting bolt assembly turbine with the same diameter and shape to 11 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + Approximately the same diameter fitting bolt assembly The turbine diameter is tripled to 12 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 13 stages with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 14 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 15 stages with 1 to 12 turbine diameters doubled by the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 16 stages with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 4 times the horizontal axis (16A) of opposed turbine blades. organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescence engine which has a generator and heat pump in 23 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combination engine of various energy storage cycles with a generator and heat pump in 25 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 33 stages etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 34 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 35 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter of 36 units and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 37 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter four times in 49 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter 5 times in 50 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 12 units of the turbine diameter doubled to 51 stages or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 52 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with lens (2d) + Increase and store coated metal sphere and mercury with increasing sphere raising device (2F) + Compress air heated by sunlight and recover solar heated air by heating compression heat + Opposite Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 5 times the diameter and 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 15 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines doubled on opposite all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 38 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 39 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 42 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 43 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times various energy saving cycles combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 54 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 55 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 3 stages, etc., with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters 3 times 4 stages and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 4 times the diameter of the turbine and 5 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in 6 stages and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 7 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescing engine with a generator and heat pump in 18 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 19 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 20-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with a generator and heat pump in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 28 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 29 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 30 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 31 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 32 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 33 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 35 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 37 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 43 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 44 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 45 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 53 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 54 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 55 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 56 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 57 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump at 59 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters doubled in 3 stages on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 8 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy conservation cycles with a generator and heat pump in 9 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 10 stages like the.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 11 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 12 stages like the.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 18 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 19 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times, 20 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 21 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 22 generators and generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 28 times with the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat recovery + Increase the turbine diameter of 1-12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 5 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) 30 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 31 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat recovery + 32 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the opposed rotor blades various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by compressing heat + Concentrate the turbine diameter of 1 to 12 turbines by 33 times with the opposed horizontal blade turbine horizontal axis (16A) 33 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1-12 turbines by 5 times with the opposed horizontal blade turbine horizontal axis (16A) 34 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) on the opposite side 35 times 35 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Add the turbine diameter of 1 to 12 turbines to 36 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the solar heated air by heating and compressing heat + Add the turbine diameter of 1 to 12 turbines to 4 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) 37 various energy saving cycles combined engine provided with a generator and heat pump stage or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 39 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 40 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in 5 stages, 42 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 43 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 times various energy storage cycles combined engine provided with a generator and heat pump 44 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps four times in 45 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 47 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 with 3 times 48 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 49 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 5 times in 50 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in double 51 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 52 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 54 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 55 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 56 stages, etc. 3 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 57 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 times 58 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages as 1 stage.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages in 2 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 2 stages in 3 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 4 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 5 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages to 6 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 7 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + the same diameter and the same shape of the fitting bolt assembly turbine 3 times as many as 8 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + the same diameter and the same shape of the fitting bolt assembly turbine 4 times the diameter is 9 stages etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the heated solar heat by heating and compression + collecting the bolts with the same diameter and the same shape as the mating bolt assembly turbine 5 times the diameter of 10 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal spheres and mercury, + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + double the diameter of the fitting bolt assembly turbine of the same diameter and the same shape to 11 stages etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal spheres and mercury, + compress the air heated by sunlight and recover the solar heated air by heating and compression heat + increase the diameter of the fitting bolt assembly turbine 3 times the same diameter to 12 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 13 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 14 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 15 stages with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 16 stages with 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 17 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescence engine which has a generator and heat pump in 23 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combination engine of various energy storage cycles with a generator and heat pump in 25 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 33 stages etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 34 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 35 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter of 36 units and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 37 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 39 stages and so on.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is a combined engine of various energy storage cycles with a generator and heat pump in 48 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 49 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter of 58 turbines and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters doubled to 59 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 60 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with twelve turbine diameters 4 times generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and two generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with 13-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 15-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 17 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbine diameters and 23 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 24 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 26 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters and 27 generators and heat pumps in 27 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 49 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 50 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 51 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 52 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc. with 3 to 1 turbine diameter 3 times on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 5 times the diameter and 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 15 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines doubled on opposite all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 38 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 39 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 42 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 43 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times various energy saving cycles combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 54 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 55 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 3 stages, etc., with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters 3 times 4 stages and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 4 times the diameter of the turbine and 5 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger in 6 stages and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 7 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescing engine with a generator and heat pump in 18 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 19 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 20-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with a generator and heat pump in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 28 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 29 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 30 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 31 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 32 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 33 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 35 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engine with generator and heat pump in 37 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Add the turbine diameter of 1 to 12 turbines to 5 times the turbine diameter 38 times with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1-12 turbines to double the turbine diameter of the opposed turbine blades (16A) 39 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 40 times with the opposed all-blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the solar heated air with heat + Heat recovery from the compressed turbine + Horizontal turbine axis (16A) of the opposed rotor blades 4 times the turbine diameter 4 times 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + 42 times the diameter of the turbine of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 42 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compression + Recover the turbine diameter of 1-12 turbines by 43 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 3 times with the opposed horizontal blade turbine horizontal axis (16A) 44 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + 45 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 5 times with the opposed horizontal blade turbine horizontal axis (16A) 46 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight, recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 47 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 with 3 times 48 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 49 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 5 times in 50 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 installed in double 51 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 52 stages for triple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 4 times the various energy conservation cycle combined engine provided with a generator and heat pump 53 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 54 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump twice to 55 stages or the like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 56 stages, etc. 3 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 57 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 times 58 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages as 1 stage.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages in 2 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 2 stages in 3 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 4 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 5 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages to 6 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 7 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 8 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 9 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages to 10 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 11 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages, 14 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 15 stages of double.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 16 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal sphere and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compression heat + Increase the diameter of the fitting bolt with the same diameter and the same shape to 18 times the turbine diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Save the coated metal sphere and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the diameter of the fitting bolt with the same diameter and the same shape to 19 times the turbine diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compressing heat + the same diameter and the same shape of the fitting bolt assembly The turbine diameter is tripled to 20 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heated air by heating and compressing heat + the same diameter and the same fitting bolt assembly 4 times the diameter of the turbine to 21 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) The metal balls and mercury are stored in an elevated position with + the air heated by sunlight is compressed and the solar heated air is heated and compressed and heat is recovered. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 23 stages, etc. with 1 to 12 turbine diameters doubled on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generators and heat pumps in 24 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 25 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 26 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 27 stages, etc. with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy storage cycles with a 33-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 34 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 35-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 36 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters and 43 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 44 stages, etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 4 times the diameter of 45 turbines and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 46 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 47 stages etc. with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engine with generator and heat pump in 48 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Covered metal spheres and mercury are raised and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compressed heat. Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 58 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 59 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters doubled in 3 stages on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 8 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 4 times the diameter and 9 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 12 turbines 5 times larger in diameter and 10 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 11 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 12 turbine diameters tripled to 12 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescence engine which has a generator and heat pump in 23 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combination engine of various energy storage cycles with a generator and heat pump in 25 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 33 stages etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 34 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 35 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter of 36 units and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 37 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 39 stages and so on.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is a combined engine of various energy storage cycles with a generator and heat pump in 48 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 49 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter of 58 turbines and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters doubled to 59 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 60 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with twelve turbine diameters 4 times generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and two generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with 13-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 15-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 17 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbine diameters and 23 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 24 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 26 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters and 27 generators and heat pumps in 27 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled by 43 blades on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 48 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 49 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 50 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 51 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 52 stages and so on with generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbines 5 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine 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 three stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in five stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are installed in multiple stages + factory electrification primed + increasing sphere rising device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 4 turbine diameters 4 to 12 times in all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages for 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 1 to 12 turbine diameters tripled on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 13 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbines 5 times the diameter and 14 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 15 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 16 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 17 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbines 3 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 28-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times The energy storage cycle coalescing engine with a generator and heat pump in 29 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with a generator and heat pump in 30 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 38 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 39 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times and 40 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 42 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 43 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engine with generator and heat pump in 45 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 48 times with the counter-rotating blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar air by heating and compression + Recover the turbine diameter 4 times 1 to 12 with the opposed horizontal blade turbine horizontal axis (16A) 49 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines by 51 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed horizontal blade turbine horizontal axis (16A) 52 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 53 times with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Recover the turbine diameter 5 times 1 to 12 with the opposed all blade turbine horizontal axis (16A) 54 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 55 times the opposite turbine blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the heated solar heat by compressing heat + Enhance 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 57 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 times 58 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages as 1 stage.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages in 2 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 2 stages in 3 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 4 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 5 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages to 6 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 7 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 and 8 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages to 9 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages to 10 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 11 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages, 14 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 15 stages of double.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 16 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 18 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 19 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 20 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 22 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 23 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 24 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages for quadruple.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 5 stages with 26 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 27 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heated air by heating and compressing heat + the same diameter and the same shape fitting bolt assembly The turbine diameter is tripled to 28 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + increasing the diameter of the fitting bolt with the same diameter approximately the same shape 4 times the turbine diameter to 29 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + Approximately fitting bolt assembly with the same diameter of 5 times the diameter of the turbine to 30 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury with + Compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the diameter of the fitting bolts with the same diameter and the same shape to 31 times the turbine diameter Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and recovering the solar heated air by heating and compressing heat + Approximately fitting bolt assembly with the same diameter 3 times the turbine diameter to 32 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 33 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 34 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 35 stages etc. with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine equipped with generator and heat pump in 36 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 37 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 43 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 44 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 45 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 3 turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbines 5 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine rotor horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 53 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times larger and 54 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 55 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 56 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 57 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump at 59 stages etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters doubled in 3 stages on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 8 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times This is an engine that combines various energy conservation cycles with a generator and heat pump in 9 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pumps 10 stages like the.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 11 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) various energy saving cycles combined engine provided with a generator and heat pump 12 stages like the.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axes (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 3 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 18 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 19 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times, 20 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 21 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 22 generators and generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 6 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed turbine blade horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heated air + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbines 6 times the diameter of the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a 33-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 units on the horizontal shaft (16A) 7 times larger A combined engine with various energy storage cycles with a generator and heat pump in 34 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 35-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 36 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 10 times larger with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 6 times and 43 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 7 times, 44 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 8 times the diameter and 45 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 12 turbines 9 times larger and 46 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 10 times the diameter and 47 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is heated and compressed and heat is recovered. + 1 to 12 turbines with a horizontal axis (16A) facing the turbine. Various energy storage cycle coalescing engine with generator and heat pump in 48 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters of 6 to 12 turbine blades with horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters 7 times on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 10 to 10 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compressing heat + 1 to 12 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 58 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 59 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbines 10 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines having a diameter of 1 turbine and 8 stages with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 9 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 10 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 11 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 12 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 6 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed turbine blade horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heated air + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbines 6 times the diameter of the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescence engine which has a generator and heat pump in 23 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 units on the horizontal shaft (16A) 7 times larger Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine of various energy storage cycles with a generator and heat pump in 25 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 10 times larger with opposed all blade turbine horizontal shaft (16A) A combined engine with various energy storage cycles with a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 6 times and 33 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy conservation cycle coalescing engines with 12 turbine diameters 7 times, 34 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbine diameters 8 times and 35 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 9 times larger and 36 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 10 times the diameter and 37 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is heated and compressed and heat is recovered. + 1 to 12 turbines with a horizontal axis (16A) facing the turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engine with generator and heat pump in 39 stages and so on.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 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 40 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 10 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compressing heat + 1 to 12 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A) This is a combined engine of various energy storage cycles with a generator and heat pump in 48 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 49 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 52 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters of 6 to 12 turbine blades with horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters 7 times on all moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 10 to 10 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 58 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters doubled to 59 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 60 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with twelve turbine diameters 4 times generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and two generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 6 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed turbine blade horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heated air + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 8 stages etc. with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages and so on, with 1 to 12 turbine diameters doubled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters 3 times on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 5 to 12 turbine diameters with all rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbines 6 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 13-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 units on the horizontal shaft (16A) 7 times larger Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a 15-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 10 times larger with opposed all blade turbine horizontal shaft (16A) A combined engine with various energy storage cycles with a generator and heat pump in 17 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 6 times larger and 23 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 7 times, 24 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 8 times the diameter and 25 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 26 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 10 times and 27 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is heated and compressed and heat is recovered. + 1 to 12 turbines with a horizontal axis (16A) facing the turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with a generator and heat pump in 30 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 6 to 6 turbine diameters of 6 to 12 turbine blades with horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 7 to 7 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times larger.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 9 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc., with 1 to 12 turbines 10 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compressing heat + 1 to 12 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with 38-stage generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Double 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 in 39 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 5 times the diameter of opposed all blade turbine horizontal axis (16A) A combination engine with various energy storage cycles with a generator and heat pump in 42 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing 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 horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbines 10 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 12 turbine diameters, 48 stages, etc., with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters, 49 stages, etc., equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters 3 times 50 stages etc. and generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 51 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 5 times the diameter and 52 generators and heat pumps.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 6 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles with generator and heat pump in 53 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed turbine blade horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heated air + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engine with generator and heat pump in 57 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine gravity Solar power generation speeds up natural phenomenon + Increasing sphere lifting device (2F) with coated metal sphere and mercury + Save heat by compressing air heated by sunlight and recovering heat by compressing solar heated air + Mass driven turbine driven by heat-driven turbine driven mercury and coated metal sphere + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 58 stages with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover compressed air heat by heating + Cooled heat driven turbine exhaust by mass driven turbine driven mercury, coated metal sphere and exhaust air + 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) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover compressed air heat by heating + Cooled heat driven turbine exhaust by mass driven turbine driven mercury, coated metal sphere and exhaust air + 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Compressed air heated by sunlight to recover solar heated air by heating and compression heat recovery + 1 to 12 turbine diameters quadruple with opposed all blade turbine horizontal axis (16A) etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Turbine Gravity Solar power generation speeds up natural phenomenon + Increased sphere lift device (2F) coated metal sphere and mercury + Save heat by compressing air heated by sunlight and recovering heat by compressing solar heated air + Mass driven turbine driven by heat-driven turbine driven mercury and coated metal sphere + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on opposite horizontal blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 7 to 12 turbine diameters in 4 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated 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) to 5 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 7 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 8 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated solar heat by heating and compression + Exhaust Various energy storage cycle coalescing engines aiming at 1000 times power generation by providing double turbine diameter of 1 to 12 turbines in 69 stages with opposed horizontal blade turbine horizontal shaft (16A) that dissolves air in deep ocean water.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 10 stages on opposite horizontal blade turbine horizontal axis (16A) with generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages etc. with 6 times the turbine diameter of 1 to 12 turbine blades on the horizontal axis (16A) of the rotor blade turbine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 9 times as many as 16 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescence engine with generator and heat pump in 17 stages with 1 to 12 turbine diameters 10 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters 3 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbine blades on the horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 23 stages of 1 to 12 turbine diameters 6 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages with 1 to 12 turbine diameters 8 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages etc. with 9 times the diameter of 1-12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages with 1 to 12 turbine diameters 10 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 28 stages of 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled by cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 30 stages of 3 times the diameter of 1-12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 4 times the turbine diameter 4 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 5 times the diameter of 1-12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 6 stages, 33 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages for 7 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc. 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, 36 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 37 stages for 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all 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 turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all 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 rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all 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 turbine blades on the horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage with generators and heat pumps in various stages of opposed coated metal sphere mercury gravity solar heat turbines with 105 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) Cycle coalescence engine.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 48 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) to double the turbine diameter of 1 to 12 turbines to 49 stages, etc. Various energy conservation cycle coalescence engine provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 50 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines with horizontal axis (16A), 5 times the diameter of turbine, 52 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 turbine diameters of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 58 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines with double shaft diameter (16A) on opposite horizontal blade turbine (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed turbine blades horizontal axis (16A) to 60 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 5 times the diameter of opposed turbine blade horizontal shaft (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in three stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger in 6 stages and equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 7 stages with 1 to 12 turbine diameters 10 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 1 to 12 turbine diameters 1 on the turbine blade horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with double turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of turbine diameters of 1 to 12 turbines at the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 5 to 12 turbine diameters with blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 6 times on the opposed all blade turbine horizontal axis (16A), 13 stages etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 14 stages with a counter-rotating blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A) to 15 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 17 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy conservation cycle coalescing engines with generators and heat pumps in 18 stages of 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters tripled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 23 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 24 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed all blade turbine horizontal axis (16A) to 25 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 27 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generator and heat pump in 28 stages etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters tripled on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 31 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 32 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of opposed turbine blades (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages of 6 to 12 turbine diameters with blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy conservation cycle coalescing engines with generators and heat pumps in 37 stages etc. with 10 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 38 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 39 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 40 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 42 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 6 to 6 turbine diameters on turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc. with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 48 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) to double the turbine diameter of 1 to 12 turbines to 49 stages, etc. Various energy conservation cycle coalescence engine provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 50 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines with horizontal axis (16A), 5 times the diameter of turbine, 52 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 53 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages with 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 56 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump at 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed turbine blades (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters of 1 to 12 on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Storing coated metal spheres and mercury ascending + Compressing air heated by sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in two stages with 5 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on opposite horizontal blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 7 to 12 turbine diameters in 4 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated 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) to 5 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 7 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbine diameters 1 to 8 in the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 6 times on the opposed all blade turbine horizontal axis (16A), 13 stages etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 14 stages with a counter-rotating blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A) to 15 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 17 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine with generator and heat pump in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of opposed all blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 4 times the diameter and 21 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 22 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 8 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 28 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters are doubled to 29 stages, etc. with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters 3 times 30 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 32 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 turbine diameters of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 to 7 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 36 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc. with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 38 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 39 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 40 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 42 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 43 stages with 6 to 6 turbine diameters on the horizontal axis (16A) of opposed rotor blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 1 to 12 turbine diameters 7 times 44 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engine with 12 turbines 9 times larger and 46 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 47 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages, etc., with 1 to 12 turbine diameters at 48 blades on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc. with 5 times the diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 53 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) to 54 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine driven mercury, coated metal sphere and exhaust air + opposed turbine blades horizontal axis (16A) to 8 times turbine diameter 8 times to 55 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 57 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 58 stages, etc. with 1 to 12 turbine diameters of 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines 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).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in two stages of turbine diameter 5 times 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on opposite horizontal blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 7 to 12 turbine diameters in 4 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated 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) to 5 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 7 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generators and heat pumps with 8 stages of 1 to 12 turbine diameters at the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of the heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 10 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed blades   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 4 times, 11 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages of 6 to 12 turbine diameters on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air heated and compressed heat + Opposite all blade turbine horizontal axis that dissolves exhaust air in deep ocean water (16A various energy saving cycles combined engine aimed at 1000 times the power generation amount provided in 14 stages times 1-12 units of turbine diameter 7).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pump 1x turbine diameter of 1-12 units in 18 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc., with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters 3 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 21 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pumps 12 units of the turbine diameter 5 times in 22 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pump six times turbine diameter of 1-12 units in 23 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 1 to 12 turbine diameters 8 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines by 26 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pumps 10 times the turbine diameter of 1-12 units in 27 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages etc. with 1 to 12 turbine diameters 1 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled by cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 30 stages of 3 times the diameter of 1-12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 31 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages etc. with 5 times the turbine diameter of 1 to 12 turbine blades on the horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 to 6 turbine diameters on the moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 7 to 12 turbine diameters 7 on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with turbine blade horizontal axis (16A) 8-12 times turbine diameter 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages, etc. with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air 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 cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 2 turbine diameters doubled by cooling + opposed turbine blade horizontal axis (16A) (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc. with 3 times the diameter of 1-12 turbines on the cooling + opposed turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 times the turbine diameter 4 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of cooling + opposed all blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters 6 times on the cooling + opposed turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages with 1 to 12 turbine diameters 9 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a cooling + counter all-blade turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 48 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 double 49 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 three stages of 50 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in quadruple 51 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 52 stages for 5 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 9 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. various energy saving cycles combined engine provided with a generator and heat pump 1x turbine diameter of 1-12 units in 58 stages like in 16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. various energy saving cycles combined engine provided with a generator and heat pump twice turbine diameter of 1-12 units in 59 stages like in 16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. various energy saving cycles combined engine provided with a generator and heat pump three times turbine diameter of 1-12 units in 60 stages like in 16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. various energy saving cycles combined engine provided with a generator and heat pumps four times turbine diameter of 1-12 units in one stage or the like in 16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. various energy saving cycles combined engine provided with a generator and heat pump five times the turbine diameter of 1-12 units in two stages such as at 16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight + Heat-compressed heat recovery from solar heated air + Calorie-driven turbine drive Mercury and coated metal sphere drive mass-driven turbine + Opposite all blade turbine horizontal axis (16A) 3 to 1-6 turbine diameter 6 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight The solar heated air is heated and compressed to recover heat + mass driven turbine driven mercury, coated 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 equipped with generators and heat pumps in 7 stages, 4 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight The solar heated air is heated and compressed to recover heat + mass driven turbine driven mercury, coated 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 equipped with generators and heat pumps in 5 stages for 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight Combines various energy storage cycles with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 9 times on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Raise the head as much as possible with the pumping device (1J) + Increase and store the coated metal sphere and mercury with the increasing ball lifting device (2F) + Compress the heating air with sunlight + Heat-compressed heat recovery of solar heated air + Calorie-driven turbine drive Mercury and coated metal sphere drive mass-driven turbine + Opposite all blade turbine horizontal axis (16A) 7 to 10 times turbine diameter 10 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 8 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters are doubled to 9 stages etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 10 stages on opposite horizontal blade turbine horizontal axis (16A) with generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pump six times turbine diameter of 1-12 units in 13 stages like.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades turbine horizontal axis (16A) at various energy conservation cycle combined engine provided with a generator and heat pumps 10 times the turbine diameter of 1-12 units in 17 stages like.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 18 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + counter turbine blade horizontal axis (16A) to double the turbine diameter of 1-12 turbines to 19 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 20 stages with generators and heat pumps, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbines with a horizontal axis (16A) with 5 times the diameter of the turbine, 22 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 23 stages etc. with 6 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages, etc., with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 26 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 27 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters tripled by the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar thermal power generation turbine structure + storage battery drive prime + increase sphere lift device (2F) coated metal Storing and storing spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat from solar heated air + Driving a mass-driven turbine with heat-driven turbine-driven mercury and coated metal spheres + Opposite all blade turbines Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar thermal power generation turbine structure + storage battery drive prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and heated solar air + Cooling the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Opposite Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 7 to 7 turbine diameters on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar thermal power generation turbine structure + storage battery drive prime + increase sphere lift device (2F) coated metal Storing the sphere and mercury up + Compressing the heated air with sunlight and recovering the heated and heated solar air + Cooling the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Opposite Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times larger.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar thermal power generation turbine structure + storage battery drive prime + increase sphere lift device (2F) coated metal Storing the spheres and mercury ascending + Compressing the heated air with sunlight and recovering the heated solar heat by heating and compression + Recovering the turbine diameter of 1 to 12 turbines by 9 times with the opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar thermal power generation turbine structure + storage battery drive prime + increase sphere lift device (2F) coated metal Storing and storing spheres and mercury + Compressing heated air with sunlight and recovering heated and compressed heat from solar heated air + Driving a mass-driven turbine with heat-driven turbine-driven mercury and coated metal spheres + Opposite all blade turbines Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc. with a turbine axis 10 times as many as 1 to 12 on the horizontal axis (16A)   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 3 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 6 times in diameter with opposed horizontal blade turbine horizontal axis (16A) 43 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 44 stages with generators and heat pumps on opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters 8 times 45 stages with generators and heat pumps on the horizontal shaft (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 47 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generator and heat pump in 48 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped 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).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 51 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 52 stages with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 6 to 6 turbine diameters on blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with a turbine blade horizontal axis (16A) of 10-12 times the diameter of 1-12 turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 58 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines with double shaft diameter (16A) on opposite horizontal blade turbine (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed turbine blades horizontal axis (16A) to 60 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 5 times the diameter of opposed turbine blade horizontal shaft (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 8 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters are doubled to 9 stages etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 10 stages on opposite horizontal blade turbine horizontal axis (16A) with generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 13 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 16 stages with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 1 to 12 turbines tripled in diameter on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 23 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 24 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed all blade turbine horizontal axis (16A) to 25 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 27 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 28 stages, etc., with 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A), 33 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Drive the turbine diameter 2-12 times of all blade impeller turbine + 1 to 12 turbine diameters 7 times with opposed all blade turbine horizontal shaft (16A) equipped with long lens (2d) and heat pump (1G) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) to 35 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 9 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 10 times on opposite horizontal blade turbine horizontal axis (16A), 37 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generators and heat pumps in 38 multi-stages with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generator and heat pump in 39 stages etc. with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 42 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 48 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) to double the turbine diameter of 1 to 12 turbines to 49 stages, etc. Various energy conservation cycle coalescence engine provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 50 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines with horizontal axis (16A), 5 times the diameter of turbine, 52 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 turbine diameters of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 58 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines with double shaft diameter (16A) on opposite horizontal blade turbine (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed turbine blades horizontal axis (16A) to 60 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 5 times the diameter of opposed turbine blade horizontal shaft (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in three stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger in 6 stages and equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 7 stages with 1 to 12 turbine diameters 10 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 1 to 12 turbine diameters 1 on the turbine blade horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with double turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of turbine diameters of 1 to 12 turbines at the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 5 to 12 turbine diameters with blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 6 times on the opposed all blade turbine horizontal axis (16A), 13 stages etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 14 stages with a counter-rotating blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A) to 15 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 9 times the diameter of all rotor blades horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 17 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy conservation cycle coalescing engines with generators and heat pumps in 18 stages of 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters tripled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 23 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 24 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed all blade turbine horizontal axis (16A) to 25 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 27 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generator and heat pump in 28 stages etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters tripled on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 31 generators and generators.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 32 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of opposed turbine blades (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages of 6 to 12 turbine diameters with blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy conservation cycle coalescing engines with generators and heat pumps in 37 stages etc. with 10 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 38 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 39 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 40 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 42 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 6 to 6 turbine diameters on turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of opposed coated metal sphere mercury gravity solar various turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy conservation cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine horizontal axis (16A) of 9 to 12 turbine diameters in 47 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 48 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres, and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blade horizontal axis (16A) to 49 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters are doubled to 50 stages, etc. with the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed total blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 53 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages with 1 to 12 turbine diameters 7 times on the horizontal shaft (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heating air with sunlight and recovers solar heating air by heating and compression heat + Various energy storage cycle coalescing engines with 12 turbine diameters 8 times and 56 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 57 stages etc. with turbine diameter 9 times as many as 1-12 on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of opposed all blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc. with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 3 stages etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbine diameters 6 times in 4 stages etc. on the counter-rotating blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 1 to 12 turbine diameters 7 times 5 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 7 stages etc. with 9 times the diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + 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 10 times 8 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages with 1 to 12 turbine diameters 1 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 4 to 12 turbine diameters on turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 13 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters 6 times 14 stages on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 1 to 12 turbine diameters 7 times 15 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 17 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 18 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generator and heat pump in 1st to 12th turbine diameters in 19 stages and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 20 stages with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines, 3 times the diameter of the turbine, and 21 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 22 stages etc. with 4 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages, etc., with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc., with a turbine turbine horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 10 times on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc. with 1 to 12 turbine diameters 1 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on the rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat recovery + 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages with 4 to 12 turbine diameters on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the turbine diameter of 1 to 12 turbine blades on the rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 36 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages with a turbine diameter 9 times 1 to 12 on the shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages, etc., with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages of 1 to 12 turbine diameters doubled on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 times 41 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 4 times the diameter of 1 to 12 turbines on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 5 times the turbine diameter of 1 to 12 turbine blades at the horizontal axis (16A) of the rotor blade turbine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages etc. with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with 8 to 12 turbine diameters 8 times on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air 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 cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc. with 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbine diameters twice on the cooling + opposed turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages with 3 times the diameter of 1 to 12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages, etc., with 4 stages of turbine diameter 4 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 53 stages, etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of cooling + opposed all blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 54 stages of 1 to 12 turbine diameters 6 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 55 stages of 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generator and heat pump in 56 stages with 1 to 12 turbine diameters 8 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with a generator and heat pump in 57 stages with 1 to 12 turbine diameters 9 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps at 10 times 58 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 60 stages etc. twice.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 the first three stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in quadruple two stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages of turbine blades with a horizontal axis (16A) of 5 to 12 times the turbine diameter.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 8 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 9 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 9 stages with a generator and a heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled in 10 stages and provided with a generator and a heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and coated metal sphere drive mass-driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 13-stage generator Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres, and heat-driven turbine exhaust are cooled by exhaust air + 1 to 12 turbine diameters 6 times 14 stages with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A), 15 to 7 turbine diameters 7 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 16 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Heat-driven turbine driven Mercury and coated metal spheres drive mass-driven turbine + Counter turbine blade horizontal axis (16A) 1-12 turbine diameter 9 times to 17 stages generator Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 18 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 19 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters are doubled to 20 stages, etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed all blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal axis (16A) and a turbine and a 12-unit turbine diameter 9 times, and a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 28 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposite rotor blade horizontal axis (16A) to 29 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal sphere and exhaust air + opposed turbine blades horizontal axis (16A) to double turbine diameter of 1-12 units to 30 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times the diameter of opposed turbine blade horizontal axis (16A), etc. Various energy provided with generator and heat pump in 32 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 33 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 1-12 turbine diameter 7 times 35 stages etc. equipped with generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 8 times the diameter and 36 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 37 stages etc. with turbine diameter 9 times as many as 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc., with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages of 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 43 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal shaft (16A) to 44 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 45 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 47 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc. with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + 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 opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + various energy with generator and heat pump in 53 stages etc. with 5 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters 6 times 54 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the heated solar heat by heating + mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres, and exhaust air + 1 to 12 turbine diameters on the opposed all-blade turbine horizontal axis (16A) to 55 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 57 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed turbine blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine 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 the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 8 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blades horizontal axis (16A) to 9 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool heat-driven turbine exhaust + counter turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 10 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + various energy with generator and heat pump in 1 to 12 turbine diameters 4 times 12 stages etc. with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 6 times the diameter of 1 to 12 turbines on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 17 stages of turbine diameter 9 times 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 18 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 19 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters are doubled to 20 stages, etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with lens (2d) + Increase and store coated metal sphere and mercury with increasing sphere raising device (2F) + Compress air heated by sunlight and recover solar heated air by heating compression heat + Opposite Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed all blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1-12 turbine diameters 7 times larger, 25 stages etc. with generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 8 times and 26 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine with generator and heat pump installed in 27 stages etc. with turbine diameter 9 times 1 to 12 on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 10 to 10 turbine diameters on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with double turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages etc. with 4 times the diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbines with a horizontal axis (16A), 5 times the diameter of turbine, 33 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Drive turbine 6 Cools heat-driven turbine exhaust with drive water and exhaust + Opposite coated metal sphere Mercury gravity solar heat Various energy storage cycle coalescence engine with generator and heat pump in 34 stages of various turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters 7 times in 35 stages, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 8 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 37 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc. with a turbine horizontal axis (16A) of 10 to 12 turbine diameters in 10 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages etc. with 1 to 12 turbine diameters 1 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc., with a turbine horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 43 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal shaft (16A) to 44 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 45 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 47 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 48 stages etc. with turbine diameter 10 times as large as 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps, etc., with 1 to 12 turbine diameters doubled to 50 stages on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 51 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generators and heat pumps in 52 stages etc. with 4 times the turbine diameter 4 times by 12 on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc. with 6 times the turbine diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescence engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 58 stages etc. with 1 to 12 turbine diameters 10 times with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + 1 to 12 turbine diameters doubled to 60 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 1st to 12th turbine diameter 4 times in 2 stages etc. with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages of turbine diameter 5 times 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 5 stages of 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal shaft (16A) and a generator and heat pump with 1 to 12 turbine diameters 9 times 7 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 8 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blades horizontal axis (16A) to 9 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool heat-driven turbine exhaust + counter turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 10 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + various energy with generator and heat pump in 1 to 12 turbine diameters 4 times 12 stages etc. with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 13 stages with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine with generator and heat pump in 14 stages with 6 turbine diameters of 6 to 12 on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescence engines equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters 8 times, 16 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 17 stages etc. with 9 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages with 1 to 12 turbine diameters 10 times on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbines with double the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbines 5 times in diameter with opposed all blade turbine horizontal axis (16A), etc. Various energy provided with generator and heat pump in 23 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters 6 times 24 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times on the horizontal shaft (16A) of the opposed rotor blades to 25 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 26 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 27 stages etc. with 1 to 12 turbine diameters 9 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 28 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages with 1 to 12 turbine diameters 1 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy conservation cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 4 turbine diameters 4 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbines with a horizontal axis (16A), 5 times the diameter of turbine, 33 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines 6 times in 34 stages, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters 7 times in 35 stages, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 8 times the diameter of a turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 37 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 38 stages, etc. with 10 to 12 turbine diameters on the horizontal axis (16A) of opposed rotor blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters doubled to 40 stages etc. on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 3 times 41 stages and so on.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 42 stages etc. with 4 times the turbine diameter 4 times by 1 to 12 on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages with 6 to 6 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 48 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres, and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blade horizontal axis (16A) to 49 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters are doubled to 50 stages, etc. with the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed total blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades 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 turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + 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 opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 56 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with a turbine horizontal axis (16A) of 9-12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 58 stages etc. with 1 to 12 turbine diameters 10 times with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + 1 to 12 turbine diameters doubled to 60 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage, etc., with 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 1st to 12th turbine diameter 4 times in 2 stages etc. with opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 3 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 7 times on the horizontal shaft (16A) of opposed all blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 8 times, 6 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 7 stages with 1 to 12 turbine diameters 9 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 10 times on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages with double turbine diameters of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages etc. with 4 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 13 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters 6 times 14 stages on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 1 to 12 turbine diameters 7 times 15 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 17 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages etc. with 1 to 12 turbine diameters 1 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 21 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc., with a turbine horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 23 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters 6 times 24 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Drive turbine 7 Cooling heat-driven turbine exhaust with drive water and exhaust + Opposed coated metal sphere Mercury gravity Solar heat Various energy storage cycle coalescence engine with generator and heat pump in 25 stages of various turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 26 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 27 stages etc. with 1 to 12 turbine diameters 9 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 28 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal shaft (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of the heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled to 31 stages and so on with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps installed in 32 stages, etc. with 4 times the turbine diameter 4 to 12 on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + 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 opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages with a turbine turbine horizontal axis (16A) of 9 to 12 turbine diameters.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages with 1 to 12 turbine diameters 10 times on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages etc. with 1 to 12 turbine diameters 1 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters doubled on the rotor blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the air heated by sunlight and recover the solar heated air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 41 times the turbine diameter by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 5 times the diameter of 1-12 turbines on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages etc. with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar air by heating and compressing heat + Increase the turbine diameter of 1 to 12 turbines to 8 times the turbine diameter by the opposed horizontal blade turbine horizontal axis (16A) 46 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages etc. with a turbine diameter 9 times 1 to 12 on the shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc. with 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbine diameters twice on the cooling + opposed turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 51 stages and so on.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the turbine diameter of 1 to 12 turbine blades on the horizontal axis (16A) of the rotor blade turbine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all 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 turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc., with a cooling + counter all blade blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc. with 1 to 12 turbine diameters 1x on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages, etc., with double the turbine diameter of 1 to 12 turbines on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in two stages with 1 to 12 turbine diameters 4 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air 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 cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 8 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 9 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 10 stages, 8 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 9 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 10 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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, 11 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages, 12 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages etc. with 5 times the turbine diameter of 1 to 12 turbine blades on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 6 to 12 turbine diameters on a moving blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 7 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps installed in 17 stages of turbine blades with a horizontal axis (16A) of 9-12 times 9 times the diameter of the turbine.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 19 times and 19 generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters doubled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 21 stages with a generator and a heat pump.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and coated metal spheres drive mass-driven turbine + 1 to 12 turbines with a horizontal axis (16A) on the horizontal axis (16A) to increase the turbine diameter to 23 stages, etc. Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + Opposite all blade turbine horizontal shaft (16A) 1-12 turbine diameter 6 times 24 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + Opposite all blade turbine horizontal axis (16A) 25 to 1-7 turbine diameter 7 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescence engine with 1 to 12 turbine diameters 8 times 26 stages with generator and heat pump on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and coated metal sphere drive mass-driven turbine + Opposite all blade turbine horizontal axis (16A) 1-12 turbine diameter 9 times to 27 stages generator Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 28 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposite rotor blade horizontal axis (16A) to 29 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal sphere and exhaust air + opposed turbine blades horizontal axis (16A) to double turbine diameter of 1-12 units to 30 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times the diameter of opposed turbine blade horizontal axis (16A), etc. Various energy provided with generator and heat pump in 32 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 33 stages etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy conservation cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the diameter of 1 to 12 turbines on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 36 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc., with a turbine horizontal axis (16A) of 9 to 12 turbine diameters of 37 units.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 38 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blade horizontal axis (16A) to 39 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters doubled to 40 stages, etc. with counter-rotating blade turbine horizontal shaft (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter tripled to 41 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 42 stages etc. with 1 to 12 turbine diameters 4 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 43 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages etc. with 6 times the turbine diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 7 times, 45 stages etc. with generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 8 times and 46 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 47 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed all blade turbines.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + various energy with generator and heat pump in 53 stages etc. with 5 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters 6 times 54 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generator turbine + storage battery drive, electric drive and cold use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the heated solar heat by heating + mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres, and exhaust air + 1 to 12 turbine diameters on the opposed all-blade turbine horizontal axis (16A) to 55 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 57 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 1 to 12 turbine diameters 1 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in two stages, 1 to 12 turbine diameters 4 times on turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal spheres to drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 3 stages etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbine diameters 6 times in 4 stages etc. on the counter-rotating blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 1 to 12 turbine diameters 7 times 5 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 7 stages etc. with 9 times the diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 1 to 12 turbine diameters 1 on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of the heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps with 10 to 12 turbine diameters doubled with opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters tripled and 11 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 12 stages with 4 turbine diameters of 4 to 12 on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages with 5 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compressed heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal shaft (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 17 stages of 1 to 12 turbine diameters 9 times on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 18 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 19 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters are doubled to 20 stages, etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed all blade turbine horizontal axis (16A), etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines 8 times the diameter of opposed all blade turbine horizontal axis (16A) The energy storage cycle coalescing engine with a generator and heat pump in 26 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal axis (16A) and a turbine and a 12-unit turbine diameter 9 times, and a generator and heat pump in 27 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 28 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposite rotor blade horizontal axis (16A) to 29 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal sphere and exhaust air + opposed turbine blades horizontal axis (16A) to double turbine diameter of 1-12 units to 30 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times the diameter of opposed turbine blade horizontal axis (16A), etc. Various energy provided with generator and heat pump in 32 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 33 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with 1-12 turbine diameter 7 times 35 stages etc. equipped with generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 8 times the diameter and 36 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 37 stages etc. with turbine diameter 9 times as many as 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc., with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages of 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the heated solar air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 43 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal shaft (16A) to 44 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 45 stages, etc. Various energy conservation cycle coalescence engines provided.   Structure and method for accelerating high-temperature water vertically downward by providing 46 stages of counter-coated metal sphere mercury gravity solar turbine blade cross section (4X) with the same diameter and approximately the same shape and length of 1 to 26 times Electric drive and cold energy use + Collect sunlight in a straight line with a long lens (2d) + Increase and store coated metal spheres and mercury with an increasing sphere rising device (2F) + Compress the heating air with sunlight Combines various energy storage cycle engines that recover solar heated air by heating and compressing heat + drive the turbine diameter 9 times of the opposed all-blade propeller turbine + long lens (2d) and heat pump (1G).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 47 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with double turbine diameter of 1 to 12 turbines on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters tripled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times An energy storage cycle coalescence engine with a generator and heat pump in 51 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 53 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) to 54 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine driven mercury, coated metal sphere and exhaust air + opposed turbine blades horizontal axis (16A) to 8 times turbine diameter 8 times to 55 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 57 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 58 stages etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc. with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with twelve turbine diameters 4 times generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescence engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the opposed all-blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 6 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages etc. with 10 to 10 turbine diameters on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 8 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters are doubled to 9 stages etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 10 stages on opposite horizontal blade turbine horizontal axis (16A) with generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages with 6 turbine diameters of 6 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 16-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 18 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + counter turbine blade horizontal axis (16A) to double the turbine diameter of 1-12 turbines to 19 stages etc. Generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 20 stages with generators and heat pumps, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbines with a horizontal axis (16A) with 5 times the diameter of the turbine, 22 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 23 stages etc. with 6 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages, etc., with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 26 stages etc. equipped with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 27 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters tripled by the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A), 33 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times in 34 stages etc Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) to 35 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 9 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 10 times on opposite horizontal blade turbine horizontal axis (16A), 37 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 3 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increase sphere ascent device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 6 times in diameter with opposed horizontal blade turbine horizontal axis (16A) 43 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 44 stages with generators and heat pumps on opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbine diameters 8 times 45 stages with generators and heat pumps on the horizontal shaft (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 47 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescence engine equipped with generator and heat pump in 48 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped 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).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 51 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 52 stages with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 6 to 6 turbine diameters on blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 56 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with a turbine blade horizontal axis (16A) of 10-12 times the diameter of 1-12 turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 58 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbines with double shaft diameter (16A) on opposite horizontal blade turbine (16A) to 59 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed turbine blades horizontal axis (16A) to 60 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 1 stage with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 5 times the diameter of opposed turbine blade horizontal shaft (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with 6-stage generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 8 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters are doubled to 9 stages etc. on the opposed all blade turbine horizontal axis (16A). Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 3 times 10 stages on opposite horizontal blade turbine horizontal axis (16A) with generator and heat pump Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 12 stages with 1 to 12 turbine diameters 5 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 13 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 9 times larger and 16 stages with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 1 to 12 turbines tripled in diameter on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is recovered by heating and compression heat. + Turbine diameter of 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 23 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times 24 stages with generators and heat pumps on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines 8 times the diameter of the opposed all blade turbine horizontal axis (16A) to 25 stages, etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages and so on, with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 27 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 28 stages, etc., with 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with sunlight to recover the heated solar air heat and heat + Heat the compressed air from the rotating turbine blades (16A) 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A), 33 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 7 times in 34 stages etc Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat amount driven turbine exhaust + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) to 35 stages etc. Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with 1 to 12 turbines 9 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 10 times on opposite horizontal blade turbine horizontal axis (16A), 37 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 38 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generator and heat pump in 39 stages etc. with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 4 times the diameter and 41 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbines are provided in multiple stages Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine equipped with generator and heat pump in 42 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed by sunlight and solar heated air is heated and compressed and heat recovered. + 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 46 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 12 times the turbine diameter 12 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled on the turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity Solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape and the same length Solar power turbine multistage structure + storage battery driven prime + Compressing air heated by sunlight and recovering heated solar heat by compressing heat + Rotating turbine blades with opposed horizontal blades (16A) to increase turbine diameter 3 times 1-12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided in 52 stages, etc. with 4 times the diameter of 1-12 turbines on the shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal 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 shaft (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + Various energy storage 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to heat and compress the heated solar air + Cool the heat driven turbine exhaust with mass driven turbine driven mercury, coated metal sphere and exhaust air + 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 turbine blade horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight and recover the heated solar heat by heating and compression + Recover the turbine diameter of 1 to 12 turbines 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 coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length solar power turbine multi-stage structure + storage battery drive prime + coated sphere rising device (2F) coated metal sphere + Save the mercury and compress the heated air with sunlight to recover the compressed air heat by heating + Heat-driven turbine drive Drive the mass-driven turbine with mercury and coated metal balls + Opposite all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 9 times on the shaft (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc. with 1 to 12 turbine diameters 1x on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages with 1 to 12 turbine diameters 12 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 doubled to one stage.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in two stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 2 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 4 turbine diameters 4 to 12 on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages etc. with 5 times the turbine diameter of 1 to 12 turbine blades on the horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 6 times on the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 7 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 8 times on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 9 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 9 stages of 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages with 1 to 12 turbine diameters 12 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 stages of 2 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines with generators and heat pumps installed in 13 stages, etc., 3 times the diameter of 1 to 12 turbines on the cooling + opposed turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps with 14 stages of 4 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 5 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy conservation cycle coalescing engines equipped with generators and heat pumps with 16 stages of 6 to 12 turbine diameters on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) Protect the coated metal spheres and mercury by + compressing the heated air with sunlight and heating and recovering the solar heated air + heat-driven turbine exhaust with mass-driven turbine-driven mercury, coated metal spheres and exhaust air Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 7 times on the cooling + opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages for 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in nine stages to 19 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 10 stages to 20 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with a generator and heat pump in 21 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save the coated metal sphere and mercury ascending + compressing the heating air with sunlight and recovering the heated solar heat by compressing heat + 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 12 stages, 22 stages, etc.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with a turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 23 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in the turbine blade horizontal axis (16A), 4 to 12 turbine diameters, 25 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with 5 times the turbine diameter of 1 to 12 turbine blades on the rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) To save and store the coated metal sphere and mercury + Compress the air heated by sunlight and recover the heated and heated solar air + Heat-driven turbine driven Mercury and coated metal sphere to drive the mass driven turbine + Opposite all Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with a turbine blade horizontal axis (16A) of 6 to 12 turbine diameters 6 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 28 generators and heat pumps are provided in 28 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines with 1 to 12 turbine diameters 8 times larger and 29 generators and heat pumps provided in 29 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages of 1 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 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 31 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive various ship prime + increase ball rising device (2F) + Save the coated metal spheres and mercury by + compressing the heating air with sunlight and recovering the solar heating air by heating and compression + recovering the exhaust air into the deep ocean water, etc. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 32 stages, etc., with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 12 times with 33 horizontal stages (16A) generator Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + Opposite all blade turbine horizontal axis (16A) 1-12 turbine diameter doubled 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Mass-driven turbine-driven mercury, coated metal spheres, and heat-driven turbine exhaust are cooled by exhaust air + 1 to 12 turbine diameters 3 times 35 stages with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air + Energy recovery cycle coalescing engine equipped with generator and heat pump in 36 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed turbine blades.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect in a straight line with the lens (2d) + Increase the head with the increasing sphere raising device + Increase and store the coated metal sphere and mercury with the increasing sphere raising device (2F) + Compress the heating air with sunlight and solar heating air Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and coated metal spheres drive mass-driven turbine + 1 to 12 turbines with a horizontal axis (16A) on the horizontal axis (16A) to increase the turbine diameter to 37 stages etc. Various energy storage cycle coalescing engines equipped with heat pumps.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters 6 times with opposed horizontal blade turbine horizontal axis (16A), 38 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat driven turbine exhaust with driven turbine driven mercury, coated metal spheres and exhaust air + opposed turbine blades horizontal axis (16A) 1 to 12 turbine diameters 7 times 39 stages etc. Generator and heat pump various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool the heat driven turbine exhaust + 1 to 12 turbine diameters 8 times on the counter-rotating blade turbine horizontal axis (16A) to 40 stages etc. Generator and heat pump various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy conservation cycle coalescing engines with generators and heat pumps installed in 41 stages, etc., with a turbine rotor horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 42 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 43 stages, etc. with 1 to 12 turbine diameters 1 to 43 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages with 1 to 12 turbine diameters 12 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters doubled on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines tripled on the opposed all blade turbine horizontal axis (16A) This is an engine that combines various energy storage cycles with a generator and heat pump in 46 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc. with a turbine horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 48 stages etc. with 5 times the diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbines 6 times the diameter of the turbine blades on the opposed rotor blade horizontal axis (16A) to 49 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A) to 50 stages etc. Generator and heat pump various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc. with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 52 stages, etc. with 1 to 12 turbine diameters 9 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 53 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed rotor blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various all-energy storage cycle coalescence engine with generator and heat pump installed in 55 stages etc. with 12 times turbine diameter 12 times on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters doubled to 56 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 57 stages etc. with 3 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + 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 horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the opposed all-blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + The heated air is compressed with sunlight and the solar heated air is heated and compressed to recover heat. + 1 to 12 turbine diameters on the opposed turbine blade horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in double stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 8 times on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) 3 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres, and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blades horizontal axis (16A), 4 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blade horizontal axis (16A) to 5 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 12 times on the whole rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + various energy with generator and heat pump in 7 stages etc. with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages with 1 to 12 turbines 4 times the diameter of the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters 5 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbines 6 times the diameter of the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of turbine diameter 7 times 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A), various energy with generator and heat pump in 13 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters 9 times 14 stages with a counter-rotating blade turbine horizontal axis (16A) various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines 10 times the diameter of the counter-rotating blade turbine horizontal axis (16A) to 15 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 1 to 12 turbines with a diameter of 1 to 12 turbine blades (16A) horizontal axis.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 12 times on the counter-rotating blade turbine horizontal axis (16A), 17 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 18 stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of opposed rotor blades (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with turbine diameter of 1 to 12 turbines tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of the heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages with 1 to 12 turbines 4 times the diameter of the turbine with opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbines 5 times larger in diameter and 21 stages etc. with generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generators and heat pumps in 22 stages, etc. with 6 to 12 turbine diameters on the horizontal axis (16A) of opposed rotor blades (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters 7 times on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 8 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 9 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored + Compressed air heated by sunlight to recover heated and compressed solar heated air + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters of 1 to 12 on the blade turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters 12 times on opposite horizontal blade turbine horizontal axis (16A), etc. Various energy provided with generator and heat pump in 28 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air cool the heat driven turbine exhaust + 1 to 12 turbine diameters are doubled to 29 stages, etc. with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engines provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters 3 times 30 stages with generators and heat pumps on opposite horizontal blade turbine horizontal axis (16A) various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 32 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 turbine diameters of 1 to 12 turbines on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 to 7 turbine diameters on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages and so on, with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight and recover solar heated air heated and compressed heat + Turbine diameter of 1 to 12 turbines 9 times larger with opposed all blade turbine horizontal axis (16A) A combined engine with various energy storage cycles with a generator and heat pump in 36 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc. with a turbine horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere to drive mass drive turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 38 stages, etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbines with a 12-axis turbine horizontal axis (16A) and a 13-stage turbine generator and heat pump various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbine diameters doubled to 40 stages, etc. with counter-rotating blade turbine horizontal shaft (16A) various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps installed in 41 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter tripled to 41 stages.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass driven turbine + various energy with generator and heat pump in 42 stages etc. with 1 to 12 turbine diameters 4 times on opposite all blade turbine horizontal axis (16A) Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 43 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages etc. with 6 times the turbine diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 7 times, 45 stages etc. with generator and heat pump.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbine diameters 8 times and 46 generators and heat pumps.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump installed in 47 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters 1x on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1-12 turbine diameters 12 times on the opposed horizontal blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Compressed air heated by sunlight to recover solar heated air by heating and compression heat + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 2 Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite 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 3 to 12 turbine diameters tripled.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbines 4 times in diameter with opposed all blade turbine horizontal axis (16A) and various energy provided with generator and heat pump in 53 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air cool the heat-driven turbine exhaust + 1 to 12 turbines with a horizontal axis (16A) of the opposed rotor blade horizontal axis (16A) to 54 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Cooling heat-driven turbine exhaust with driven turbine-driven mercury, coated metal spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) to 55 stages, etc. various energy conservation cycle combined institution provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 57 stages, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 58 stages of turbine diameter 9 times 1 to 12 on the turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages etc. with a turbine diameter of 1 to 12 turbines 10 times larger on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to heat and compress solar heated air + Recover heat-driven turbine exhaust by mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters 1x on the opposed full blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heating and compression heat + Turbine diameter of 1 to 12 turbines on opposite horizontal blade turbine horizontal axis (16A) 12 times Various energy storage cycle coalescing engines with a generator and heat pump in one stage.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of solar power turbines installed in multiple stages + factory electrification primed + increasing sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by sunlight to recover solar heated air by heat and compression + Drive mass-driven turbine by heat-driven turbine-driven mercury and coated metal sphere + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 2 stages of 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters triple on the counter-rotating blade turbine horizontal axis (16A), etc. Various energy provided with generators and heat pumps, etc. Conservation cycle coalescence organization.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres and exhaust air to cool heat-driven turbine exhaust + 1 to 12 turbines 4 times larger in 4 stages, etc. with a countershaft turbine horizontal axis (16A) Various energy conservation cycle coalescence engine provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heating air with sunlight and recover the solar heating air by heating and compressing heat + Mass Heat turbine driven mercury, coated metal spheres, and exhaust air to cool the heat-driven turbine exhaust + 1 to 12 turbines 5 times larger in 5 stages, etc. on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engine provided.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal sphere and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the heated compressed air by heating + facing Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of all rotor blade turbines.   Opposite coated metal sphere mercury gravity solar turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length solar power generation turbine + storage battery drive, electric drive and cold energy use prime + long sunlight Collect linearly with the lens (2d) + Increase and store the coated metal spheres and mercury with the increasing sphere rising device (2F) + Compress the heated air with sunlight and recover the solar heated air by heating and compressing heat + Drive turbine drive Mercury and coated metal sphere drive mass-driven turbine + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 7 stages etc. Various energy provided with generator and heat pump Conservation cycle coalescence organization.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 8 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed rotor blades.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages etc. with 9 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed all blade turbines.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and saves coated metal sphere and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compression heat + mass driven turbine driven mercury, coated metal sphere and exhaust air Cooling of the heat-driven turbine exhaust + various energy storage cycle coalescing engines equipped with generators and heat pumps in 10 stages with 1 to 12 turbine diameters 10 times on the opposed all blade turbine horizontal axis (16A).   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending equipment (2F) ascends and saves coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + 1 to 1 with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines having a diameter of 11 turbines and 11 stages.   Opposite coated metal sphere Mercury gravity solar turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length solar power turbine provided in multiple stages + full electrification house prime + speed up natural phenomenon + increase sphere Ascending device (2F) ascends and stores coated metal spheres and mercury + compresses heated air with sunlight and recovers solar heated air by heating and compressing heat + heat driven turbine driven mercury and coated metal sphere for mass driven turbine + Energy saving cycle coalescing engine with generator and heat pump in 12 stages with 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages, etc., with 1 to 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal spheres and mercury ascending + Compressing heated air with sunlight to recover solar heated air by heating and compressing heat recovery + Cooling heat-driven turbine exhaust with mass-driven turbine driven mercury, coated metal spheres and exhaust air + Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Coiled metal spheres and mercury are stored and stored. + Heated air is compressed with sunlight and solar heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages.   Multi-stage structure of opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of solar power generation turbine Storing coated metal sphere and mercury ascending + Compressing air heated by sunlight and recovering solar heated air by heating and compression heat + Heat-driven turbine driving Mercury and coated metal sphere driving mass driven turbine + Opposite full motion Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 1 to 26 times and mixing the exhaust of turbine driven CO2 etc. into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) twice and mixing the exhaust gas such as turbine-driven CO2 with deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) three times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) four times and mixing exhaust such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 5 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 6 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) seven times to mix exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up natural phenomenon by mixing opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 8 times and mixing 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 opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 9 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up natural phenomenon by mixing opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 10 times and mixing 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 11 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 coated metal sphere mercury gravity solar 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 coalescence engines that speed up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 14 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up natural phenomenon by mixing counter-coated metal sphere mercury gravity solar 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 coated metal sphere mercury gravity solar heat turbine blade cross section (4X) 16 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up natural phenomenon by mixing opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 17 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 opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 18 times and mixing 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 coated metal sphere mercury gravity solar blade section (4X) 19 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine which speeds up natural phenomenon by mixing opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 20 times and mixing 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 21 times and mixing 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 coated metal sphere mercury gravity solar turbine blade cross section (4X) 22 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 opposing coated metal sphere mercury gravity solar turbine blade cross section (4X) 23 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up natural phenomenon by mixing opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 24 times and mixing exhaust gas such as turbine driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that speeds up the natural phenomenon by mixing the opposed coated metal sphere mercury gravity solar turbine blade cross section (4X) 25 times and mixing the exhaust of turbine driven CO2 etc. into deep ocean water.   Opposite coated metal sphere mercury gravity solar heat Various heat pumps are driven by 103 stages of turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after use for heat exchange Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 104 stages of various turbines to suck solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 105 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 106 heat pumps driven by various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 107 heat pumps driven by various turbines to suck solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat 108 pumps driven by various turbines to absorb sunlight heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Drives heat pump by 109 stages of various turbines, sucks solar heated CO2 together with the atmosphere, compresses compressed solar heated air, heats heat exchange, and then uses natural heat to speed up the natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 110 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 111 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 112 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat 113 heat turbines driven by various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep ocean water after using heat exchange heat speed Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 114 stages of various turbines to absorb solar heated CO2 together with the air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Heat pump is driven by 115 stages of various turbines, and solar heating CO2 is sucked together with the atmosphere Compressed solar heating air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 116 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 117 heat turbine driven by 117 stages of turbines to suck solar heated CO2 together with air Compressed solar heated air mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 118 stages of various turbines to suck solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 119 stages of turbines, and solar heating CO2 is sucked together with air Compressed solar heating air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 120 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity Solar heat Heat pump is driven by one stage of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by two stages of turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 3 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 4 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 5 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 6 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 7 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 8 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Heat pump is driven by 9 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 10 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Drives heat pump with 11 stages of various turbines, sucks solar heated CO2 with air, compresses compressed solar heated air with heat heat exchange and speeds up natural phenomenon mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 12 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 13-stage turbines drive heat pump to absorb solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 14 heat turbines driven by various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air mixed with deep sea water after use for heat exchange Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 15 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 16 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 17 heat turbines driven by 17 stages of turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air mixed with deep sea water after using heat exchange heat speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 18 heat turbines driven by various turbines to suck solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 19 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 20 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 21 stages of various turbines to absorb sunlight heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 22 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 23 stages of various turbines, and CO2 of solar heating is sucked together with the atmosphere. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 24 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 25 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 26 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. The compressed solar heating air is mixed with the deep sea water after using heat and heat exchange. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 27 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 28 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal spheres Mercury gravity Solar heat Heat pump is driven by 29 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite-coated metal spheres Mercury gravity Solar heat Heat pump is driven by 30 stages of various turbines to absorb solar-heated CO2 together with the atmosphere Compressed solar-heated air is mixed with deep sea water after using heat and heat exchange to accelerate natural phenomena Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat The heat pump is driven by 31 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat Heat pump is driven by 32 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 33 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 34 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. The compressed solar heating air is mixed with the deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 35 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 36 heat pumps driven by various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep ocean water after using heat exchange heat speed Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat 37-stage heat pump drives heat pump to absorb solar heated CO2 together with air Compressed solar heated air heat heat exchange After use heat up natural phenomenon mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 38-stage turbines drive heat pump to absorb solar heated CO2 together with air Compressed solar heated air heat heat exchange and use natural heat mixing in deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite-coated metal spheres Mercury gravity Solar heat 39-stage turbines drive heat pumps to absorb solar-heated CO2 together with the atmosphere Compressed solar-heated air is mixed with deep-sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 40 heat pumps driven by various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is used for heat exchange after heat exchange, speeding up natural phenomena mixed in deep ocean water, etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat 41-stage turbines drive solar heat pump to absorb solar heated CO2 with air Compressed solar heated air heat heat exchange after use to accelerate natural phenomenon mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 42 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. The compressed solar heating air is mixed with the deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite-coated metal spheres Mercury Gravity Solar Heating Heat pump is driven by 43 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat The heat pump is driven by 44 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 45-stage turbine to drive heat pump to absorb solar heated CO2 together with air Compressed solar heated air heat heat exchange and use mixed with deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 46 heat pumps driven by various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 47 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 48 stages of various turbines to absorb sunlight heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Drives heat pump by 49 stages of various turbines, sucks solar heated CO2 together with air, compresses compressed solar heated air, heats heat exchange, and then uses natural heat to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat 50 stages of heat pump drives heat pump to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 51 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 52 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 53 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat The heat pump is driven by 54 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. The compressed solar heating air is mixed with the deep sea water after using heat and heat exchange. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 55 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Drives heat pump by 56 stages of various turbines, sucks solar-heated CO2 together with air, compresses compressed solar-heated air, heats heat exchange, and speeds up natural phenomena mixed in deep ocean water Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 57 heat turbine driven by various turbines to suck solar heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 58 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 59 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 60 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 61 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 62 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 63 stages of various turbines, and the solar heating CO2 is sucked together with the air. The compressed solar heating air is mixed with the deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Drives heat pump by 64 stages of various turbines, sucks solar heated CO2 together with air, compresses compressed solar heated air, heats heat exchange, and then uses natural heat to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 65 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 66 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 67 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 68 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 69 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 70 stages of various turbines to suck solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 71 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat Heat pump is driven by 72 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 73 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 74 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 75 heat pumps driven by various turbines to absorb sunlight heated CO2 together with the atmosphere Compressed solar heated air mixed with deep sea water after use for heat exchange Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 76 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. The compressed solar heating air is mixed with the deep sea water after heat exchange. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 77 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 78 stages of various turbines to suck solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 79 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Heat pump is driven by 80 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 81-stage turbines to drive heat pump to absorb solar-heated CO2 together with the atmosphere Compressed solar-heated air is heated and heat-exchanged, then mixed with deep ocean water, etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 82 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat The heat pump is driven by 83 stages of various turbines, and the solar heating CO2 is sucked together with the atmosphere. Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 84 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 85 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 86 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 87 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 88 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 89 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 90 stages of various turbines to suck solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite-coated metal spheres Mercury gravity Solar heat The heat pump is driven by 91 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat Heat pump is driven by 92 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 93 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is heated and heat exchange is used to speed up natural phenomena mixed in deep ocean water etc. Various energy conservation cycle coalescing engines.   Opposing coated metal sphere mercury gravity solar heat Heat pump is driven by 94 stages of various turbines to absorb solar heated CO2 with the atmosphere Compressed solar heated air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity Solar heat Drives heat pump by 95 stages of various turbines, sucks solar heated CO2 together with air, compresses compressed solar heated air, heats heat exchange, and then uses natural heat to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat 96-stage heat pump drives solar heating CO2 with the atmosphere Compressed solar heating air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity solar heat 97 heat turbine driven by 97 stages of turbines to absorb solar heated CO2 together with air Compressed solar heated air mixed with deep sea water after using heat exchange heat speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity solar heat Heat pump is driven by 98 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposed coated metal sphere mercury gravity Solar heat Drives heat pump by 99 stages of various turbines and sucks CO2 of solar heating together with air Compressed solar heating air is mixed with deep sea water after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity solar heat Heat pump is driven by 100 stages of various turbines to absorb solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. Various energy conservation cycle coalescing engines.   Opposite coated metal sphere mercury gravity Solar heat Heat pump is driven by 101 stages of various turbines to suck solar heated CO2 together with air Compressed solar heated air is mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescing engines.   Opposite coated metal sphere Mercury gravity Solar heat Heat pump is driven by 102 stages of various turbines to absorb solar heated CO2 together with the atmosphere Compressed solar heated air is heated and heat exchange is used to speed up natural phenomena mixed in deep ocean water etc. Various energy conservation cycle coalescing engines.